Handover Process And Information Support for Communication Transfer Between Telecommunication Networks

ABSTRACT

This invention discloses an automatic and network-transparent “handover convenience information support” method (HOCIS method) for a subscriber (SUBC) of a primary communications process (alias primary telecommunications process alias primary TC process, PTCP) in which an HO takes place—wherein this HO process can comprise arbitrary times prior or after the “actual HO”. 
     “Convenience information support” thereby means inter alia that this PTCP-SUBC has not necessarily requested this HOCIS, but he nevertheless as a rule regards this then unasked-for support as convenient or helpful, such as for example a passenger on a flight regarding associated announcements/references/measures (=convenience information support) at the departure or arrival airport. As opposed to such often uniform measures the HOCIS is as a rule individually configurable by someone affected by it. The HOCIS of such a PTCP-SUBC takes place by transferring to him relevant information as regards this actual HO—which can be potential or current or retrospective—during the HO-process which was supplied for this by at least one non-human module M(HOCIS) in at least one system of at least one secondary telecommunications process (STCP) for these SUBCs.

SUBJECT OF THE INVENTION

This invention discloses an automatic and network-transparent “handover convenience information support” method (HOCIS method) for a subscriber (SUBC) of a primary communications process (alias primary telecommunications process alias primary TC-process, PTCP) in which an HO takes place—wherein this HO-process can comprise arbitrary times prior or after the “actual HO”.

“Convenience information support” thereby means inter alia that this PTCP-SUBC has not necessarily requested this HOCIS, but he nevertheless as a rule regards this then unasked-for support as convenient or helpful, such as for example a passenger on a flight regarding associated announcements/references/measures (=convenience information support) at the departure or arrival airport. As opposed to such often uniform measures the HOCIS is as a rule individually configurable by someone affected by it. The HOCIS of such a PTCP-SUBC takes place by transferring to him relevant information as regards this actual HO—which can be potential or current or retrospective—during the HO process which was supplied for this by at least one non-human module M(HOCIS) in at least one system of at least one secondary telecommunications process (STCP) for these SUBCs.

A. INNOVATIVE FEATURES OF THE HOCIS METHOD

The state of the HO art regards an HO as a process reduced to its technical core, i.e. it considers

-   -   (a) as a rule only the terminal system directly involved in the         HO as well as where applicable its users—in any case no terminal         system-user indirectly involved in a (potential or current or         previous) HO is informed by the terminal system directly         involved therein—and/or     -   (b) as regards an HO of a terminal system only its “rudimentary         connectivity”—in any case not equally the         “application-connectivity” of its user in the case of its         network entrance—and/or     -   (c) an HO of a terminal system only as “final self-runner” on         the basis of a technical presetting therefor—thus not as a         process which begins arbitrarily early and is dynamically         configurable anytime by a terminal system user who may totally         avoid this HO.

On the other hand the HOCIS method implements—for a potential or current or previous HO—inter alia the three features of an HO method identified in (a)-(c) and hitherto not considered.

Also the “service continuity” of an OSI connection to be acquired in an HO is by the

-   -   state of the HO art aimed for primarily by concealing this HO         from the users of this OSI connection—in any case from the user         indirectly involved in an HO—in an “HO-mechanistic” way. If the         PTCP-SUBCs using this OSI connection are only simple automatons         then these today as a rule even depend on such a procedure—i.e.         the service continuity must here be effected inside the modules         of the OSI connection of the PTCP (i.e. for the most part on         their L2), otherwise it need not be provided for their user         automatons—not however HO-aware SUBCs, such as people for         example.     -   HOCIS method aimed for by suitably making aware of this HO in         the case of PTCP-SUBCs (of this OSI connection), thus in a way         “based on the HO understanding” thereof. If HO-aware PTCP-SUBCs,         such as people, use the OSI connection of this PTCP, then they         often even depend on this method of procedure—they are then         namely frequently structured mentally quite differently from         simple automatons. For example HO-aware PTCP-SUBCs, such as         people must as a rule want to obtain HO-relevant information         before this HO actually takes place and/or want to be able to         react more flexibly to same than simple automatons—so that for         this an independent secondary/HOCIS telecommunications process         (STCP) is appropriate in a communications technical manner which         overlaps somehow temporarily with the PTCP and the HO process         and provides the HOCIS for the PTCP-SUBCs. Such an STCP can then         in turn include at least one HOCIS system in obtaining this         service continuity—with its in many cases earlier starting         and/or longer lasting connectivity for example to a PTCP-SUBC         involved indirectly in the HO, which enables it to supply him         “conveniently” with HO-relevant information in order to         guarantee this service continuity to him.     -   This service continuity is thus generated in the PTCP-SUBCs         according to their needs by means of at least one STCP—otherwise         this service continuity is not at all to be guaranteed for         them—i.e. produced outside of the modules of the OSI connection         of the PTCP.

In the first case, the seamless MIHs aimed at by the state of the HO art, it would in some circumstances purely theoretically be superfluous in the case of an HO in a PTCP OSI connection to provide the users in their terminal systems with a HOCIS to guarantee the thus understood service continuity in order to thereby avoid any negative effect on these PTCP-SUBCs through this HO. However anyone knows what to make of “pure theory” in this technical engineering context—that it does in fact often stand on “feet of clay” (for this see also the third last paragraph in section B).

As opposed to this the HOCIS method according to the invention has the effect in the case of an HO in a PTCP that at least one PTCP-SUBC, i.e. a user of a terminal system involved therein (of the OSI connection of this PTCP), receives at least one HO-relevant information precisely for the purpose of the “convenience information support” via/with this HO—so that this HO would not have a negative influence on the PTCP, or the PTCP-SUBCs could configure it better, or totally avoid it, or . . . (see section B. for the terms just used).

In other words: The HOCIS method achieves the “service continuity” in an HO on the level of understanding of the PTCP-SUBC (and dispenses with the illusion-bearing need or the “wishful thinking” of a large part of the state of the HO art, to be able to always completely conceal the HOs from these SUBCs in a technical way) in that it uses this HO by means of at least one non-human M(HOCIS) module in at least one HOCIS server/IAD/terminal system for this purpose (see in particular section D.).

The HOCIS method, thus owing to its objective, therefore belongs to the future and only just developing field of the “convenience” technology of technical communications, i.e. in its intentions not to the standard field of “HO technology”. A HOCIS method technically has nothing in common with the HO technology since the HOCIS method

-   -   makes it possible to solve psychic problems of the PTCP-SUBCs         caused potentially or currently by HOs by making it possible at         suitable points in time and in suitable displays to provide a         PTCP-SUBC involved in an HO with this “convenience information         support”,     -   but is not a method with which an HO of a PTCP terminal system         could be managed—thus a technically simple problem could be         solved—but it embodies a technical complexity, as is         indispensable for solving this aforementioned diffuse psychic         problem.

This great technical complexity of the HOCIS method is explained more particularly in section D., more particularly in the explanations there of FIG. 5.

B. TERMS/CONCEPTUALITY AND ESSENCE OF THE HOFIS INVENTION

The HOCIS method wants to make HOs “convenient” when using wireless communications networks as they are today. In more precise terms: It offers the possibility of conveying to their users in a simple way the convenient certainty that the HOCIS method—it is nowadays as a rule to be positioned outside of these networks—will inform them and support them during their use as regards the possible “bumpiness” of the potential and current unavoidable HOs between them permanently and in a convenient way.

The charm of the HOCIS method thus follows alone from the fact that it cannot currently be foreseen

-   -   when all present day wireless telecommunications networks, which         are considered for HOs for example in telephone conversations,         will allow for one of the currently discussed “seamless HO”         methods,     -   whether these “seamless HO” methods will then be for the         subscribers of communications processes actually totally         transparent (=non-perceivable/bothersome) and     -   whether the market actually accepts these (perhaps only alleged)         “seamless HO” methods—with its strict non-information of the         communications process subscribers about an HO, even if this         lasts longer or completely fails, although it can imply a cost         modification—or it will prefer a HOCIS method (with its         prophylactic information/support possibility for these         subscribers about HOs),         quite apart from the fact that this “seamless HO” philosophy in         any case totally ignores the basic HO problems which arise from         the foreseeable multi-overlapping of the economic regions with         the most different, mostly private wireless telecommunications         networks which vary very considerably both in size and also all         their performance features but are as a rule easily accessible         for mobile network users. This last aspect is explained in         somewhat more detail at the end of this section B. and         particularly by sub-section D.4.9.

For a potential or current HO of a terminal system of a primary telecommunications process (PTCP) the invention includes numerous (network-transparent) possibilities of providing human or non-human users in at least one different terminal system of this PTCP with “convenient information support” with regard to this HO, particularly the at least one subscriber (SUBC) of a PTCP indirectly involved in the HO. In many cases this HOCIS starts for a PTCP-SUBC involved indirectly in an HO without a request by him, thus has “social” features In order to be able to describe this clearly, the terms and associated concepts required for this will now be explained.

The subject of the invention is a generic HOCIS method as well as a generic apparatus for its implementation (generic=permitting a number of variations of the inherent type). The descriptions of the two in this written specification are—like their terms and concepts—purely functional, i.e. totally abstract, thus absolutely independent of a concrete material implementation alias embodiment. For reasons of clarity however possible material implementations of this method, of this apparatus and of these terms/concepts will be explained from time to time. It should thereby be noted that the following explanations of these terms/concepts—throughout in the sense of the OSI RM—serve to explain the essence of the method/apparatus according to the invention, thus do not aim at a basic explanation of other communications technical questions, but explain at numerous places quite directly the practical significance of the claims wordings of this protection specification. Section D. provides detailed explanations of the following clarifications.

Firstly: An HO of a communications process takes place between at least two either communications networks or/and access points of a network or/and performance features at an access point of a network. The present invention thus not only considers “vertical” HOs, i.e. HOs between different networks, but also HOs between access points or/and performance features of the same network, so-called “horizontal” HOs, and any mixture between this two HO types.

Now regarding the terms and their concepts (=meanings=contents=semantics, more precisely: also communications technical pragmatics) of this patent application.

Conceptually (i.e. purely functional, totally abstract)—this is important—

-   -   an abstract “communications process” alias “telecommunications         process, TC-process, TCP” takes place between several human         and/or non-human “subscribers” (SUBCs) to it who in turn are         “users”—or their proxies/part functionalities/supplementary         functionalities, such as for example answering machines,         mailboxes, MP3-players, IVR systems, typed/hand         written/graphic/symbol/speech/ . . .         -/DTMF-generators/DTMF-detectors/interpreters/filters of an         active and/or passive kind, in general: “communications         applications systems” (see below)—of “terminal systems” (see         below) and belong to these, wherein these terminal systems have         access to at least one network. Networks/terminal systems/users         together accomplish the (abstract) technical implementations of         the TCPs.

Thereby:

-   -   a communications process alias a TCP is said to be         -   “potentially”, if a concrete measure was indeed carried out             for it in at least one TCP terminal system involved in it,             but not however in any device of its TCP terminal systems             (i.e. only in at least one TCP-SUBC in at least one of these             TCP terminal systems, see below)         -   “current” if this has already happed in at least one such             terminal device and         -   “started” alias “begun” in each of the two cases,         -   “retrospectively” alias “ended” if no longer any concrete             measure is taking place for it in any of the TCP terminal             devices involved with it.     -   It should be noted that a TCP would thus at the latest be         begun/started when in at least one terminal device (e.g. a         telephone) of one of its terminal systems at least one measure         relating to it was started/begun (e.g. the lifting of the         telephone receiver, or the local input/output or also only the         local selection of a telephone number of a person to be called         through somebody participating in the TCP somehow, or the manual         or automatic start of a timer on expiry thereof a call takes         place, or . . . )     -   a current TOP is said to be         -   “in the connecting state” until a SUBC data exchange has             started in it,         -   “starting to run” as soon as this SUBC data exchange has             started, and         -   “running” as soon as the SUBC information exchange has             started,     -   wherein an “exchange” has started as soon as the exchange of at         least one “SUBC data” or one “SUBC information” of a TCP-SUBC         has started between at least one TCP terminal system and at         least one network currently used by the latter. A SUBC data or         SUBC information is thereby a finally/originally SUBC         perceivable/possible-to-generate information which was sent out         or inputted or selected by means of this terminal system to/from         this (non-human or human) SUBC. The difference between the two         is that SUBC data are as a rule only exchanged for a possibly         required management (=generation, interruption, . . . ,         termination) of a TCP, whilst SUBC information is exchanged for         fulfilling the purpose of the TCP, in both cases between its         SUBCs or aforementioned proxies/part functionalities/ . . . .

This written specification differentiates between at least two types of communications processes alias telecommunications processes: primary communications processes alias primary telecommunications processes alias PTCPs and—belonging to each HO therein respectively—at least one secondary communications process alias secondary telecommunications process alias STCP alias HOCIS-TCP. Each TCP has its own OSI connection (see below). Both types of TCPs and their terminal systems can however use in their abstract and/or material implementation substantially the same or different abstract/material operating means.

These TCP terms/concepts thereby apply universally, thus also for an HO alias an HO process, if this is a communications process/TCP—then it is a third type of TCP. Whether an HO alias HO process is also a (tele)communications process depends on whether its telecommunications technology implies during an HO a communication between the SUBCs of the PTCP on which the HO is based, or not, which is however irrelevant here: the HOCIS method can be used in both cases—and can in the first case where necessary use the HO TCP and/or consider it as a PTCP, as is apparent for example from the explanations to the last FIG. 5 in section D.

Right here it should be pointed out here that it is also apparent at the latest from the telecommunications configurations just mentioned that the claim 1 wording/meaning as regards an HO relates to one or more PTCPs and to one or more STCPs.

-   -   the communications technology terms used in this patent         application are defined in the internationally standardised “ISO         7498-1, Information technology—Open Systems         Interconnection—Basic Reference Model: The basic model”, in         short: ISO/OSI Reference Model or OSI RM. This forms for the         relevant person skilled in the art the binding         notional/conceptual basis of this patent application.

To clarify that which has just been said: The wordings of the HOCIS method/apparatus according to the invention in the two main claims 1 and 80 are based—despite their “pseudo-natural-linguistic” formulation—on the terminology/conceptual meaning defined in the OSI RM, thus have already undergone the communications technological precisions/restrictions of the OSI RM which eliminate many uncertain areas of their “purely natural linguistic” meanings.

The description of the HOCIS method/apparatus according to the invention uses still wider OSI RM terms/conceptions which are not used in the pseudo-natural-linguistic wordings/meanings of claims 1 and 80—and which belong to the “artificial” terminology/conceptuality of the OSI RM. Thus the description makes use of the unmistakeability of the capacity of the relevant person skilled in the art for articulation through OSI RM made-up words/made-up terms. The relevant person skilled in the art will consider this helpful for making sure to get the correct understanding of the pseudo-natural-linguistic description of the HOCIS method/apparatus in its respective main claim. For this use of the OSI RM made-up words/terms see also section D. For the following use of the OSI terminology/conceptuality and especially for the OSI RM made-up words/terms in this written specification it should be pointed out in advance that the latter

-   -   on the one hand cannot recapitulate them completely so that as a         substitute reference is made to the above mentioned         international standard, wherein in cases of doubt this written         specification is the authority, and     -   on the other hand at some places concretises them regarding the         situations in the case of an HO and the associated HOCIS process         (see section D.).

As regards terminology/conceptions in the sense of the OSI reference model there is in each “n-point-communications process”, n>=2, between any two of its terminal systems, for example A and Z, an abstract “OSI connection”—which extends to the communications application systems in these two terminal systems, as will be explained below.

Each OSI connection is according to the OSI RM basically always sub-divided into at least 7 abstract “Li connections” (1<=l<=7) “lying on top of each other”, by means of which this communications process takes place between these two terminal systems A and Z (wherein “L” stands for “layer”).

The OSI RM thus defines—on the basis of its “7-layers” of always in principle identical “abstraction-semantics” of its Li-connections in each OSI connection—the “OSI communications architecture” which in turn is based on this “7-layers-structure” of the basic abstraction semantic of all the OSI connections. The OSI RM calls each of these basic 7 abstractions layers of its communications architecture—quite independently of individual OSI connections—obviously “Li”, 1<=i<=7.

Several Li connections can exist for each “i” in any one individual OSI connection. Each such Li-connection must use for its implementation at least one Lj connection of the same OSI connection, wherein always j<l holds-apart from

-   -   an L7 connection (i.e. i=7) which can use for this another L7         connection, and     -   an L1 connection, which uses for this as a rule a “physical         medium”         wherein an Lk-connection (1<=k<=7) can be used by several OSI         connections or in one OSI connection by several Lk+i-connections         (1<=i<=7−k).

An L7-connection of an OSI connection is often called a “communications connection” since in it of sole importance is the “communication” in the sense of the specific telecommunications process on which this OSI connection is based or of the “communications applications systems” supporting it (the latter located in at least the two terminal systems of the OSI connection). I.e.: An L7-connection abstracts entirely from the modalities of the information transfer (=L1 to L4 functionality) used in this communication, —of a communications applications system which where necessary human SUBCs operate in it—information sub-division (=L5-functionality) and information presentation (=L6-functionality): An L7-connection only knows the “interactions” in this “communications application” communication.

An OSI connection of a telecommunications process “exists”

-   -   locally not only between its two (telecommunications process)         terminal systems A and Z—more precisely: between these two         terminal systems A and Z exists the L3-connection of this OSI         connection—but by means of its L7-connection also between the         communications applications systems or their SUBCs in these         terminal systems A and Z, and     -   temporarily as soon as this telecommunications process has         started—more particularly the L7-connection of this OSI         connection exists from this moment in time between these two         communications application systems or SUBCs of this         telecommunications process—and remains existing until these two         communications application systems or SUBCs consider this         telecommunications process as ended (which the OSI RM models as         ending of this L7-connection and OSI connection).

Accordingly this OSI connection—owing to the start of the communication of its communications application system creating it, i.e. the beginning of the telecommunications process—exists at the latest from the moment in time at which some measure for it takes place in a terminal device of the terminal system of the (communications process) SUBC creating it in A or Z. However at this moment in time there need not yet any Li (1<=i<=7) of this OSI connection be (abstractly) implemented or possible to implement. The existence of a Li connection thus does not imply its (abstract) implementation or possibility to be implemented. And more generally: With any OSI connection its at least 7 Li connections also exist, of which however no single Lj connection—and its interaction with the other Li connections of this OSI connection—needs to be abstractly implemented (the OS RM does not consider material realisations/implementations anyway), An (abstract) implementation of a Li connection needs only to be given during its actual (abstract) use.

This implies that the OSI connection remains in existence between these two terminal systems A and Z for this TCP even if in particular its at least one L3 connection is not or cannot be implemented, as often happens in HOs of their terminal systems.

That in any case the L7 connection of a PTCP OSI connection remains in existence in an HO case can be ensured by means of the HOCIS method according to the invention (see Section A.) since it ensures that at least one PTCP-SUBC in A or Z always knows that this PTCP (i.e. the PTCP OSI connection) has not yet ended, although for example an L3 connection interruption is occurring in it—wherein this SUBC anyway sometimes knows this about this L7-non-termination, also without any HOCIS method, because this non-termination arises for him from his application communication which he executed in the seconds preceding the L3 connection interruption. The HOCIS method confirms in such a case the corresponding SUBC assumptions or corrects them. The latter for example if the SUBC involved directly in the HO ends during the HO—thus during an L3 connection interruption—the OSI/L7 connection (i.e.: the associated PTCP) unilaterally.

It should again be pointed out here that a PTCP OSI connection in the method according to the invention need not connect the same terminal systems as an STCP OSI connection associated with it: In both however the SUBC considered at the time is the same (which section D. emphasises).

-   -   abstract “terminal systems” contain in addition to their         abstract human users and/or non-human users (=user-automatons)         and/or their aforementioned proxies/part functionalities—all to         be understood as PTCP-SUBCs—abstract “terminal devices”, all of         which in one terminal system are occasionally termed below as         “terminal device”, i.e. non-human functional groups, such as         e.g. those of LANs, WLANs, main frame computers, data bases,         PBXes, RASes, firewalls, switches of all kinds, but also those         of network-accesses, IADs, I/O-devices, Non-human (abstract or         material implementations of functional groups in terminal         systems will often be termed “modules” in the following.     -   abstract individual “terminal devices” of a terminal system can         be considered separately from one another, more particularly         -   a “terminal terminal device”, always with             electronic/physical/acoustic/optical “logical” user             interface (which is frequently mobile, e.g. in a mobile             telephone)         -   a “non-terminal terminal device”, with or without             network-specific “terminal adapter” (TA) for its “network             termination” (NT=“network terminator”), in any case without             one such user interface just outlined, wherein         -   subscriber-terminal and non-terminal terminal devices of a             terminal system interact with one another by             physical/communications technical interfaces and/or further             terminal devices, of which as a rule only some are             standardised, and         -   a non-terminal terminal device (and even its terminal             adapter and associated network terminator, see section C.)             and a terminal terminal device can be integrated in a             material implementation—particularly in a mobile terminal             device (e.g. a mobile telephone) in which then the former is             likewise mobile.

The claim 1 of this patent application implies the existence of at least one functional module “M(HOCIS)” in a terminal system of a HOCIS-TCP alias STCP. This M(HOCIS) is functionally sub-divided further, as explained in detail in section D. in order to make it easier to obtain the precise understanding of the claim 1 wording/meaning. Regarding this sub-dividing of an OSI RM-compliant terminal system into modules (as further explained particularly in section D.) it is pointed out that the OSI RM at first sight avoids sub-dividing terminal systems, but does actually undertake this. The reason for this is the notional necessity for sub-dividing communications applications (such as the abstract HOCIS communications application, which is notionally indispensable for the abstract implementation of the HOCIS method, which as a rule are located on the L7 in the terminal systems) in order to understand them. This necessity led in the definitions for the L7 (in the relevant international standard ISO/IEC 7498 of 1994 and the identical ITU-T recommendation X.200, inter alia page 32/33, and more specifically in the international standard ISO/IEC 9545 of 1994 and the identical ITU-T recommendation X.207) to the definition of the functional structure of an OSI RM-compliant abstract communications application which logically implies the functional sub-division corresponding to it of the terminal systems containing them—namely in their area of the OSI RM-compliant abstract communications application contained by them.

-   -   abstract “servers” alias “server terminal systems” alias         “terminal systems-without-human telecommunications process         subscribers” are functional groups in or on a network—being         managed by its network operator(s) or not—which in this written         specification are likewise regarded as terminal systems/terminal         devices, the latter however not to be subdivided into         terminal/non-terminal.     -   a abstract “systems” are either terminal systems/terminal         devices or computers integrated anyhow into a network.     -   the many possible Li relay roles of a server and/or system in a         PTCP or STCP OSI connection need not all be explained in detail         in this written specification—the discussion of the relay         examples in the FIG. 5 provide clarity on this for the relevant         person skilled in the art. Particularly important here is a         (stationary or mobile) “HOCIS server” and/or a “HOCIS system” in         a HOCIS TCP—which belongs to an HO of a PTCP—as a terminal         system of at least one of its one or several HOCIS OSI         connections (see the explanations on the last FIG. 5 in section         D.) which can also be a HOCIS server or a HOCIS system in a         network.     -   a PTCP terminal system (and its PTCP-SUBC) in an HO is called         potentially or currently or retrospectively “directly involved”         if it undertakes at its network access point (over which the         PTCP is routed) during this HO process on the L3 on the one hand         a total or partial and on the other hand a permanent or         temporary network/network access point/network performance         feature-usage feature change potentially or currently or         retrospectively and thereby retains its PTCP OSI connection         (alias its PTCP). A PTCP terminal system (and its SUBC) is said         to be “indirectly involved” in this HO if it is not directly         involved in this HO.     -   this written specification need only to consider the case that         there exists in a PTCP at any moment in time only a single         HO—thus abstract “one directly involved system”-HOs. Of each         PTCP embodiment which gives the impression that it also relates         to an abstract “several directly involved systems”-HO—which in         practice is reasonable—it can namely easily be shown that it in         actuality is based on the handling of a sequence of         time-overlapping “one-directly involved system”-HOs, which this         patent application deals with. There follows from this:         -   The above mentioned potential/current/retrospective             attributing of a TCP can be applied for an HO/process.         -   Since the (abstract) implementation of a PTCP OSI connection             alias its PTCP comprises n>=2 PTCP systems, n−1 systems are             involved indirectly in an HO in this PTCP.     -   applies for a HOCIS TCP alias STCP associated with an HO of a         PTCP that it begins/starts with the discovery of the         presence—where and however in at least one of its PTCP and/or         associated HOCIS TCP alias STCP systems—of a “signal” alias         “HOCIS signal”. For an STCP the aforesaid         potential/current/retrospective attributing of a TCP with the         starting point can likewise be applied.

The starting points of the PTCPs, their HOs and their STCPs in a HOCIS method—unless stated otherwise—are/can be arranged chronologically in any sequence.

A HOCIS TCP alias STCP alias its STCP OSI connection—for a potential or current or retrospective HO of a PTCP—can in particular have something to do with this PTCP insofar as for its (abstract and/or material) implementation, i.e. for the implementation of its STCP OSI connection, thus its STCP Li connections, it can use one or more of the Li connections of the PTCP OSI connection (i.e. its abstract and/or material implementations at their end points in the PTCP systems). However the implementations of both OSI connections (in the abstract and/or material implementations) can also take place completely independently of one another.

It is thereby only important that the HOCIS method is based on a transfer of HO-relevant information from a HOCIS system (of a certain modality) to a SUBC—however the HOCIS OSI connection which is essential therefor (according to claim 1) is implemented. This is also not conflicted with the start of the HOCIS/STPCP of this OSI connection being carried out through the presence of a (HOCIS) signal in a PTCP and/or HOCIS secondary system.

-   -   It should furthermore be noted that the type of         accomplishment/occurrence/presence of such a (HOCIS) signal in         at least one of these systems is in no way restricted, it must         not be confused with the accomplishment/occurrence/presence of         any HO-relevant information and it need not be explained in         detail in this written specification.     -   the HOCIS method respectively considered—more precisely: a HOCIS         TCP considered as its abstract execution instantiation—is         clearly assigned to an HO of a PTCP.     -   an STCP in no way implies a current HO: it belongs for example         to a potential HO.     -   an STCP (for a potential or current or retrospective HO of a         PTCP) implies that an attempt was started at least once to         transfer HO-relevant information supplied by at least one         M(HOCIS) to a SUBC of this PTCP.

This “attempt at transfer” means (see FIG. 5 and their explanations)

-   -   either         -   a transmission/receiving attempt of HO-relevant information             over/from at least one network through an M(HOCIS) in at             least one PTCP/STCP system         -   and/or the attempt of its local transfer/acceptance to/by             its SUBC,     -   or the M(HOCIS) of the terminal device of this SUBC has         generated locally—by a protocol previously agreed between these         two M(HOCIS)s, possibly on the basis of a “time out”—mechanism         as is/are known to the person skilled in the art—such         information without this having been sent and/or received over a         network.

This is the “core” of the present invention on which the claim 1 wording/meaning is based—which will be explained again and in more detail below (particularly in section D.).

-   -   an “HO-relevant information” is an ultimately SUBC-perceptible         information at least about the terminal system directly involved         in the HO and which         -   is transferred in a terminal STPC/PTCP terminal system to             its PTCP-SUBC,         -   after it was detected and supplied and transferred for this             by means of an M(HOCIS).

It ultimately corresponds to the “HO convenience information support suitability” of the HOCIS method regarding a PTCP-SUBC who is involved in an HO (and is as a rule human in the examples of this patent application). It is ultimately designed/articulated/coded/pre-sented/located for/on the abstraction level of its “automated” and/or physical and/or syntactical and/or semantic and/or pragmatic/mental perceptibility:

-   -   An HO-relevant information is conceived         pragmatically/mentally/psychically in regard to the concern to         provide a HOCIS for SUBCs of particularly those PTCPs in which         at least one PTCP-SUBC is mobile (for just that reason in future         HOs ought to appear often) namely in such a way that it is as a         rule perceived as welcome by the SUBCs. It can indeed—if this is         appropriate for some reason for these SUBCs—contain network and         fees-information with the appearance of elementary         telecommunications events in the current PTCP, but must however         not be restricted to such “pragmatic/mental/psycho         trivialities”, Rather a HOCIS must “ingratiate itself into the         heart of these SUBCs” and must supply these SUBCs as regards         their PTCP and its HOs with confidently/pleasurable         information—as flexible, sensitive and individual as possible.         It should be noted that a HOCIS for example can completely         relieve the SUBC of permanently and repeatedly checking into the         WLANs which he passes through short term one after the other,         and informs him where applicable only about a network change if         this was for example defined by him. The relevant person skilled         in the art can as a rule distinguish from an HO-relevant         information transferred to a SUBC—immediately from a more         complex HOCIS—whether it is according to the invention or         belongs to the above trivial area which the relevant prior art         has also already rudimentary developed.     -   An HO-relevant information, such as is generally standard for         information, is shown semantically/syntactically in perhaps a         presentation/coding of a human natural language and/or writing         and/or symbols and/or . . . . However this does not rule out any         other type of information display in it, such as         telecommunications-conventional syntactic codings, possibly in         the form of internationally standardised PDUs, known to the         person skilled in the art, for example “ASN.1-PDUs”, and their         semantic assignments of any kind.

This implies configuration/display variants of an HO-relevant information

-   -   on the one hand as “SUBC-adequate HOCIS which is based on at         least one “HOCIS—SDU” (SDU=Service Data Unit). SDUs are thereby         to be distinguished from their material implementation by means         of at least one “HOCIS-IDU” (=Interface Data Unit) which this         written specification does not consider and     -   on the other hand as telecommunications-adequate at least one         “HOCIS-PDU” (PDU Protocol Data Unit).

This written specification simplifies this OSI terminology insofar as it likewise regards the SDUs as PDUs. Consequently an HO-relevant information is in this patent application always a HOCIS-PDU understood in this way.

In order to simplify the illustration of that which has been mentioned above regarding the OSI RM it should now be explained:

-   -   With regard to a PTCP/STCP-SUBC the abstract term “HO-relevant         information” contains the aforementioned at least one HOCIS-SDU         which is transferred to this SUBC by means of at least one OSI         RM type “HOCIS Service Element” which provides this SDU, wherein     -   these abstract “HOCIS SEs” as a rule specify the possible         material implementations of the HOCIS measures for this SUBC as         regards an HO.

Features of a material implementation alias embodiment of a HOCIS method are not however even considered in this patent application.

I.e.: In the following the terms “HO=relevant information”, “HOCIS” and “HOCIS service” are ultimately synonyms insofar as they model the ultimate material information of a material SUBC of a (current or potential or retrospective) material PTCP as regards one of its (current or potential or retrospective) material HOs in an OSI RM-conforming way.

-   -   a HOCIS TCP obtains its HOCIS of a PTCP-SUBC as regards an HO         (and thus also affects where applicable the triggering or         modification or suppression of this HO or of a report thereon)         without modification of one of the networks required for the         PTCP/HO implementation. The latter need not even learn anything         about a claim-1-type HOCIS TCP for a PTCP, since the former as a         rule is located on the L4-L7 of its underlying STCP OSI         connections—even if its HO-relevant information refers to L1/L2         conditions in “its” PTCP OSI connections. An STCP is thus         completely “network transparent” and can thus also be materially         implemented.     -   a user of a terminal system/device can         -   possibly by himself determine/reduce/switch off—in short:             “configure”—the display of a HOCIS offered to him and/or the             modalities of his acceptance of a HOCIS namely for the time             before and/or during and/or after the execution of the             actual HO,         -   exchange HOCISs with any other processes/applications and         -   have to confirm or not confirm in at least one way the             acceptance of at least one HOCIS, wherein such a             confirmation/non-confirmation can or can not change the             course of the HOCIS TCP.     -   must be differentiated as regards the relationship between a         terminal system and a network between the rudimentary         connectivity of this terminal system to this network, as well as         its internet connectivity and its communications application         connectivity over this network:     -   Its         -   “rudimentary connectivity” to a network is given as soon as             it can receive on the L1 and L2 at least one PDU from this             network (it has then already carried out a “rudimentary HO”             to this network)         -   “internet connectivity” over it is given as soon as it can             use thereby connections to other internet terminal             systems—which in addition to its L1/L2 connectivity also             requires its “admin connectivity” to this network, i.e. that             it is “checked in” at this network (see the explanations of             the last FIG. 5 in section D.)—and         -   “HOCIS connectivity” alias “special applications internet             connectivity” over it is given as soon as it can use thereby             connections to other internet terminal systems wherein these             internet connections have to be routed over this special             communications application system.     -   This patent application—unless stated to the         contrary—differentiates only between this rudimentary         connectivity just described and the HOCIS connectivity so that         the latter also comprises special applications internet         connectivities, more particularly “netsurfing internet         connectivity” alias “WLANsurfing internet connectivity”.     -   A terminal system which is connected only rudimentarily to a         network must—if it wants to use this network in order to         implement its internet connectivity by same—carry out directly         involved an HO between the service features of this network: It         must change over in this HO between the service features “L1+L2         service” and “L1+L2+L3 service” of this network used by it.

The difference is also to be noted which there is between a rudimentary HO of a terminal system to a network compared to the checking in of this terminal system into this network: The former is a necessary telecommunications measure of this terminal system as regards this network so that this terminal system can then carry out its check-in at this network. The check-in of a terminal system into a network thereby needs to imply not yet a more extensive possibility of usage of this network through this terminal system, particularly no internet connectivity of this terminal system—of which the relevant person skilled in the art is fully aware.

In the HOCIS method special importance is placed on the discovery of the rudimentary connectivity of a terminal system to a network: It implements its starting time point.

-   -   there is also a need to explain the terms         -   “paired” of STCP/PTCP systems: This attribute/feature of at             least two STCP or PTCP systems means that they communicate             with one another in an STCP or a PTCP. At this point it             should be reminded that in one embodiment alias material             implementation of the HOCIS method, a system can contain             both at least one STCP and one PTCP system—which changes             nothing to the fact that abstractly an STCP or PTCP system             in each case only operates with a paired system the STCP and             PTCP OSI connection corresponding to this TCP.         -   “active communications attempt” of an STCP/PTCP system: This             term designates an attempt by this system to send over at             least one network at least one PDU to a paired system and/or             to receive some sort of confirmation for its receipt.

The fundamental novelty in the HOCIS method described basically in many words in section B. will be repeated below with few words and practice-orientated: The HOCIS method supports, as regards a—potential or current or earlier—HO of a terminal system of a PTCP, at least one PTCP-SUBC through at least one HOCIS alias one HOCIS measure, It is started by the discovery of the presence of at least one HOCIS signal in at least one PTCP or STCP terminal system. As a result of this an HO-relevant information relating to this is transferred to at least one PTCP-SUBC (either after its STCP terminal system received this over a network or as a substitute it construed itself). This SUBC receives this HOCIS however not because he had requested it but because he was to experience as little negative interference as possible by this HO. The HOCIS method is thus “socially” founded.

The HOCIS method thus endows PTCP terminal systems with a behaviour which as regards its potential and/or current or retrospective HO was up until now never once thought of. More precisely: It imparts to PTCP terminal systems/devices as regards HOs—in order to support their SUBCs—a completely novel type of “social behaviour” in respect of these SUBCs: Up until now there was never any trace of such an idea.

For just that reason it differs fundamentally from the present state of the HO art (see section A.): it is namely totally unaware of the “interpersonal” HO problem—that namely with an HO at least one subscriber of a PTCP indirectly involved therein is left in the dark about this HO and its continuation at least temporarily and thus becomes possibly considerably irritated, let alone that there would be some reaction possible to it for him. It not even regards its total “neglect of user interests regarding HOs” as a problem.

The HOCIS method is the technical core of a solution to this actual problem: this written specification thus reveals a basic principle of a technology by means of which any PTCP-SUBC (according to his needs) can be informed about/supported by a (potential or current or earlier) HO in this PTCP—thus also a SUBC not directly involved in an HO.

The HOCIS method is also suitable to support subscribers with seamless MIHs. An example for the meaningful purpose of such support: When downloading a large data file by WLAN technology onto a PDA its user moves out of the WLAN used for this. Is a MIH method to engage here and let the download continue over a more expensive and/or significantly slower GSM network or should it be continued only with the availability of another WLAN, or is it now to possibly be totally broken off? To want to not inform the user about these alternatives—as is provided with seamless MIH—must by-pass market needs.

Whereas it is strikingly obvious that the HOCIS method according to the invention is reasonable in an HO between a WLAN/Femtocell and mobile network, this can also apply with all other networks/part networks/network types which are all covered by the claims wording/meaning, particularly “HOs with mobile network/mobile network roaming”—even if the examples/figures in this written specification only concretise the first-mentioned case.

The HOCIS method is a fundamental further development of the known support of a user during his work with his real or virtual local application system, possibly MS word or MS explorer or also the navigation system of his car. It is a fundamental further development of this support because a user during this work up until now is supported only as regards determinants of his current actions, which reflect his sphere of influence which is known to him and does not change automatically, whilst the HOCIS method supports him in a novel way additionally as regards novel determinants of his actual actions which reflect an area unknown to him and changing automatically from his viewpoint and impossible to be influenced by him (here: as regards events of all kind which are HO-relevant there). The fundamental innovation of the HOCIS method thus consists in its novel “convenience information support” of the SUBCs of a PTCP as regards their novel determinants of their actual actions in HOs.

To conclude this section B. the following should be noted. In the descriptions up until now of the HOCIS method its support of a PTCP-SUBC or his FMC telephone indirectly involved in an HO is in the foreground, and this also applies for most of the following sections of this written specification. Since the section B. inter alia should make the essence of the HOCIS method clear, it is now expressly pointed out and substantiated briefly that and why it can also support a PTCP-SUBC directly involved in an HO—namely in the generally known practical example of an FMC telephone and its discovery of its rudimentary IAD connectivity (wherein claim 1 knows neither this “FMC”—nor this “telephone” nor this “IAD” restriction).

The HOCIS in this special application example of the method according to the invention (for a PTCP−SUBC=FMC telephone user directly involved in an HO) demonstrates the market relevance of the HOCIS method by in particular explaining its practical FMC usage simplification potential. An “HO convenience information support” of this type namely differs clearly—after the FMC telephone has established its rudimentary IAD connectivity (see above)—from the

-   -   nowadays known user information through the telephone about this         event wherein this information for the user         -   becomes available only as a result of non-trivial user             activity on the telephone, and         -   the execution of the latter stops any other user activity on             the telephone, and         -   both do not support the user as regards his             evaluation/forcing/acceptance/questioning             possibility/avoidance possibility/ . . . of this potential             HO,     -   whilst the future user-HOCIS, quite differently from this meagre         user information,         -   requires no user activity on the telephone and/or         -   prevents no user activity thereon and         -   can support him very substantially particularly as regards             an HO—for example by facilitating a “one touch HO” to this             IAD (by checking this rudimentary connected IAD immediately,             automatically and in the background: whether: the user could             where necessary check into it and even use it also then for             a specific purpose, possibly for the above mentioned             “netsurfing”)—so that the user can then use this one-touch             HO in order to establish from the rudimentary IAD             connectivity of its FMC telephone its internet connectivity             (via this IAD) or even its netsurfing internet connectivity             (additionally via his home-IAD).

A one-touch HO of this kind (implemented by HOCIS method) or even zero-touch HO or another (such as possibly configured by the telephone user for this HO) causes the use of an FMC telephone to be much more convenient and as a rule additionally more cost-effective than this is possible without the HOCIS method—so that it is also regarded as welcome by this PTCP-SUBC directly involved in an HO.

Thereby this HOCIS (for example by one-touch HO) can seamlessly complete for a user of a telephone directly involved in an HO the HOCIS explained further above for a PTCP-SUBC indirectly involved in the same HO. The sub-section D., more particularly D.4.9. and the associated FIG. 55 more particularly the explanations of FIGS. 5 o-r provide further understanding in this respect.

C. EMBODIMENT VARIATIONS OF THE HOCIS METHOD And Explanation of Further Associated Communications Technology Terms/Concepts

The HOCIS method outlined in this section C. and the associated FIGS. 1 and 2 are restricted to considering the HOCIS method in telephone calls while including mobile terminal devices, i.e. in particular to HOs in two party PTCPs in (practically) real time by using at least one mobile and/or wireless network. These special cases cover no “asynchronous” PTCPs in which their SUBCs need not have to participate at the same time, such as email-based PTCPs, and no HOs with the participation of at least one fixed line network, and they touch only HOs within a wireless network (possibly by including “Femtocells” or WiFi-WLANs and similar constructs in a GSM/CDMA/UMTS/Wimax/ . . . -network)—naturally without thereby removing the associated non-considered HOCIS method special cases from the protection area according to the claims wording/meaning.

These outlines are thus only to explain some of the anticipated frequent “mobility-conditioned” HOs in telecommunications arrangements in which the HOCIS method can be helpful. They are to show in particular that its implementation—by means of at least one non-human M(HOCIS) module—can be located completely or partially especially in:

-   -   1. mobile network or at least wireless telephones     -   2. mobile or stationary IADs (IAD=“Integrated Access Device” of         a WLAN, whose forerunners were technically simpler and were         called “Access Points”, APs, wherein the WLAN of the IAD can         also be a “Femtocell” of a GSM/CDMA/UMTS/Wimax/ . . . -network)     -   3. systems/servers/IADs in or at a communications network,         possibly for each SUBC of a PTCP elsewhere.

Since in the following discussion the term “access” to a communications network of a terminal system of this network is of crucial importance, its meaning—which is known to the relevant person skilled in the art—will first be explained (to an extent adequate for this specification): Its thus constructed definition according to a person skilled in the art reads: An (abstract) terminal system of a network (which is thus checked in with it, see above) has at a point in time “access” to this network if it at this time in point can carry out L3-data transmission to the OSI layers L1-L3 of its connection with

-   -   at least one (abstract) access point of this network or even     -   at least one (abstract) terminal system of this network over         this network.

It follows in particular from this that a terminal system of a network does not need to have permanent access to the latter—as is often the case with terminal systems of mobile networks as is known.

The “access point” to this network (particularly in the case of its potential or actual use for a data transmission in/from this network) is thereby the point of transfer (from the operator of this network to those responsible for this terminal system/terminal device) of the legal/commercial and where applicable technical responsibility for the operational capability of the layers L1-L3 on the at least one “data transmission section” (DTS) between terminal system/terminal device and network. The network-side (abstract) terminating device of a DTS at the access point is called “network terminator” (NT), the user-side (abstract) terminating device of this DTS at the access point is called “terminal adapter”, TA. In a material implementation of a network access point these two (abstract) functional units, network terminator (NT) and terminal adapter (TA), can be as far as possible integrated—as is the case generally with mobile telephones.

After clarifying the two terms network access and network access point it is also clear that a mobile (abstract) terminal system/terminal device which can be directly involved in an HO, nowadays more particularly an (abstract) mobile telephone, can contain for example one terminal and three non-terminal (abstract) terminal devices:

-   -   Its terminal terminal device serves by definition primarily for         the (abstract) implementation of the (abstract)         acoustic/optical/mechanical user interface of a TCP, and     -   its as a rule three (abstract) non-terminal terminal devices         serve for interacting with the at least two different mobile         networks/access points/performance features in an HO—wherein the         latter may differ slightly from one another in the area of the         “Femtocell” variants. These three non-terminal terminal devices         are         -   on the one hand the (abstract) “switch” for the (abstract)             data switching between its terminal devices—which can be             marginalised where applicable, e.g. when using Femtocell             technology, because with this there is as a rule no need for             a switching functionality—and         -   on the other hand two TAs/NTs to/for the respective             network/access point/performance feature (where applicable             only one TA/NT with Femtocell technology).

If this capacity of a telephone for the “direct HO” relates to a GSM/CDMA/UMTS/satellite/Wimax/ . . . -network on the one hand and an internet-connected WiFi or Femtocell-WLAN on the other hand then it is occasionally called “FMC telephone” (FMC=Fixed/Mobile Convergence): It then supports indeed the convergence of the usability both of the landline technology of the internet and the mobile network technology of the GSM/CDMA/UMTS/satellite/Wimax/ . . . networks, here when telephoning.

FIG. 1 shows this by way of example by means of an abstract FMC telephone (sub-section C.0. explains the significance of its graphic symbols), which

-   -   on the one hand has temporary access to the GSM mobile network         by the GSM-TA/-NT—it is integrated in the FMC telephone—(wherein         the GSM DTS between the next stationary antenna of the GSM         network and the GSM-NT in the mobile FMC telephone, colloquially         speaking: the “GSM air interface”, belongs to the GSM network),         and     -   on the other hand by the IEEE802.xx-TA/NT—it is likewise         integrated in the FMC telephone—has temporary access         additionally to a WLAN (wherein the temporary IEEE802.xx DTS         between the IEEE802.xx-IAD and the IEEE802.xx-NT in the FMC         telephone, colloquially speaking: the “WLAN air interface”,         belongs to the WLAN), which in turn has by its “aDSL-modem”-TA         access to the internet landline (i.e. to its “aDSL-Splitter”-NT         and telephone copper twisted pair line-/aDSL-DTS).

It should be noted that the IAD contains at its air interface-side (=not internet-side) a “switch” (just like the FMC-telephone at its air interface side): As can be seen from FIG. 1 the data transmission (for one and the same communications process) can take place between the FMC telephone and IAD on the one hand by its WLAN-NT (and the packet-switching WLAN) and on the other hand by the GSM-NT (and the line-switching GSM network).

A GSM-/CDMA/UMTS feature can be seen from the above: With these networks all the base stations—conditioned technically/in regard to copyright/financially, since they are operators of large cells—have to be under the legal and commercial responsibility of large operators and are thus slow to introduce innovations into the practice. On the other hand IEEE802.xx-IADs/-APs are under the legal and commercial responsibility of their respective much smaller operators so that they offer a technical platform on which innovations of all kinds such as those of this written specification can be brought into use at short notice.

Furthermore an FMC telephone—as shown in FIG. 2 (see sub section C.0.)—can get by with only one TA/NT, by way of example a common GSM-/GPRS-TA/NT for both the line switching and packet switching GSM networks, so that it is thereby possible to completely dispense with an IEEE802.xx-IAD. However, it is possible here in one communications process to switch between the use on the one hand of solely an as a rule more expensive line-switching L3-connection and an on the other hand at least partly slightly cheaper packet-switching L3-connection. Such a changeover is not a network-HO but a performance feature-HO (see Section B.).

By the way the terminal device of the subscriber directly involved in an HO is depicted on the left in the following figures. The illustration on the right, too, is a reminder that the HOCIS method is provided particularly for subscribers of a communications process who are only indirectly involved in this HO.

C.0. Explanations on FIGS. 1 and 2

In FIG. 1 unidirectional arrows belong to the identifiers in the rectangles at their arrows ends, bi-directional arrows stand for data transmission sections (DTSs), the two inclined ellipses each represent a line-switching wide area network (e.g. GSM/CDMA/UMTS/satellite/ . . . , here also called “Network-I.”), and embedded therein each an IEEE802.xx-WLAN (“Network-II.”) with its IEEE802.xx-IAD/AP, which as a rule has permanent access to the internet (“Network-III.”). The area of sufficient signal strength of an IAD/AP is indicated by the solid circle, the chain-dotted/dotted circles concentric therewith signify the falling or fading signal strengths.

Network-II. has no significance on the costs of a primary communications process between A and B, but rather Network-I. and Network III. so that these are also relevant for HOs. In view of this the complete HO terminal device in the primary communications process between the subscribers A and B consists as regards

-   -   Network-I. of the FMC telephone alone and     -   Network III. of the FMC telephone together with its         IEEE802.xx-IAD,         wherein the FMC telephone has permanent access to Network-I. and         the IAD to Network-III.

If one starts from network III., then the complete HO terminal device is thus the IAD+FMC telephone.

If one starts from the FMC telephone, then

-   -   it is a complete HO terminal system as regards Network I. and         Network II,     -   but as regards Network III. is only part of the previously         mentioned HO terminal device.

If one starts from the primary communications process, then it is possible to regard as the complete HO terminal device both the FMC telephone alone and also the FMC telephone+IAD.

In FIG. 2 the complete HO terminal device consists as regards both performance features (of the single network)

-   -   both regarding the performance feature “line switching”     -   and also regarding the performance feature “packet switching”         solely of the GSM telephone.

C.1. Example of Use of the HOCIS Method Alone in the FMC Telephone

In FIG. 1 both sides show:

-   -   I. a mobile network (here on the GSM basis) and     -   II. an IEEE802.xx wireless network (“xx” e.g. =“11” for WLAN or         =“16” for WIMAX) and associated IEEE802.xx-IAD     -   III. with access to the internet,         as well as an FMC telephone with regionally         unrestricted/restricted access to the Network I./Network II.

In the initial phase of the market introduction of the FMC technology FIG. 1 should be a frequently appearing HO-relevant telecommunications arrangement. In the following HO-situations A) to H) outlined by way of example the left FMC telephone can be involved directly (or indirectly, which is not elaborated on further here) in a current or potential HO:

-   -   A) The A-user is located both in a I.-cell and in a II.-cell and         quits the latter, although he is just telephoning from it with         the B-user.     -   B) The A-user is located both in a I.-cell and in a II.-cell and         quits the latter although he is just calling the B-user from it,         this “call set-up” procedure however has not yet concluded.     -   C) The A-user is located both in a I.-cell and also in a         II.-cell and comes into its limit range whilst he is just         telephoning from it with the B-user.     -   D) The A-user is located both in a I.-cell and in a II.-cell and         comes into its limit range whilst he is just calling the B-user         from it (thus this “call set-up” procedure has not yet         concluded).     -   E) The A-user is located in a I.-cell and enters into a II.-cell         whilst he just is telephoning from it with the B-user.     -   F) The A-user is located in a I.-cell and enters into a II.-cell         whilst he is just calling the B-user from it (thus this “call         set-up” procedure is not yet concluded).     -   G) The A-user is located in a I.-cell and enters into the limit         range of a II.-cell whilst he is just telephoning from it with         the B-user.     -   H) The A-user is located in a I.-cell and enters into the limit         range of a II.-cell whilst he is just calling the B-user from it         (thus this “call set-up” procedure is not yet concluded).

The HOCIS method according to the invention can start/start running/terminate in an obvious number of further potential or current HO situations. It is also not exemplified how a subscriber information/support takes place.

In section C.1. solely the FMC telephone A—possibly with support through the telephone B—is entrusted with the execution of the HOCIS method according to the invention. This has the result that the “internet connectivity” between the FMC telephones A and B breaks off for its execution as soon as A quits the reception area of his WLAN.

The HO telecommunications arrangement of FIG. 2 differs in two ways from the previous HO telecommunications arrangement: it permits on the one hand mainly only a performance feature HO but no network HO but on the other hand however such an HO to all “only-GSM/GPRS” telephones.

C.2. Example of Use of the HOCIS Method Solely in the Stationary IAD

Here again we start from the HO telecommunications arrangement in FIG. 1. In all HO processes—of which for example 8 were already outlined in A)-H)—the execution of the HOCIS method according to the invention now however takes place in the stationary IEEE802.xx-IAD of the FMC telephone A. The “internet-connectivity” time interval of this IAD with the FMC telephone B for executing the HOCIS method is larger than the “internet connectivity” time interval provided for this in sub-section C.1.—which compared to this enables an improvement in the HOCIS of the B-user as regards an HO of the A-user.

For example in the above case A) the IEEE802.xx-IAD A would be able to provide its L3-connection to the FMC telephone B over the internet to the HOIS method during this telephone conversation so that it can inform the B-user via this that the A-side IEEE802.xx-connectivity has ended. And further: In several of the above cases the IEEE802.xx-IAD A can enable in all critical phases of potential and/or actual HOs of the telephone call/conversation HOCISs thereby to both communications partners—particularly thus the communications partner B only indirectly involved in the HO of A, who otherwise knows nothing of the technical HO-danger/necessity of the HO of A. An IAD directly involved in an HO can thereby start significantly earlier with the HOCIS method and/or work longer thereon than is possible/advisable for a terminal terminal device directly involved therein.

C.3. Example of Use of the HOCIS Method Solely in the Internet Server

The FMC telephones and their IADs/APs can be arranged exactly as seen in FIG. 1—the latter would here be expanded only by a server at the internet—so that no further figure is necessary.

The great importance of using this telecommunications configuration for implementing the HOCIS method arises from the fact that most of the present day millions of already installed IEEE802.xx-IADs/APs and their IEEE802.xx-/GSM-/CDMA-/ . . . telephones themselves—as a result of their technical inadequacies—cannot perform any HOCIS functionalities, but a suitably designed “HOCIS internet server” (e.g. a suitable HOCIS expansion of a SIP or announcement or . . . server already used in control operation) can act very well for them, by observing the quality of their relevant connectivity as regards an HO and providing by means of this HO-relevant information, which it supplies instead of and by the telephones, HOCIS services derivable therefrom for their users.

C.4. Example of Mixed Design Use of the HOCIS Method According to the Invention

As can be easily seen, the qualities of the HOCIS functionalities of the method according to the invention can be improved in detail in many respects if use can be made of all 3 previously outlined abstract “design variations of a HOCIS service”. The method-1-claim wording takes into account this “mixed design advantage aspect”: Its wording/meaning is independent of all “functional distribution aspects” in all three types of processes (see section B.) of the HOCIS method.

The HOCIS method is also not restricted in its interaction with any other service—by whomever this is offered and/or provided possibly with a MIH service. In order to explain such functional distribution and cooperation possibilities there is now an example:

A GSM network operator could reserve for WLAN calls from FMC telephones on his GSM network a kind of (attractively tariffed) “stand-by” connections in his own GSM network, on which such a WLAN call can carry out at any time and delay-free a “local GSM fallback” (for the L3-connection between FMC telephone and its IAD) or a “global GSM fallback” (for the L3-connection between FMC telephone and the second telephone apparatus)—provided the mobile network operator was in a position to cost-effectively solve the problems involved with such a “pre-HO-service”. Only its interaction with a HOCIS method according to the invention would make it in effect user-friendly and thus attractive on the market. Such a GSM fallback (alias HO) of a telephone conversation would namely in no way guarantee the desired quality of the “service continuity” without the user-friendly-enhancing HOCIS method:

-   -   Particularly not when a global GSM fallback is carried out and         the subscriber “non-directly” involved in this HO would only         implicitly find out about it, because the current telephone         connection unexpectedly breaks down, then his telephone rings         again and after accepting the call he unexpectedly discovers         that he can now carry on the just interrupted communications         process—if he even realises the network change for the         communications process and does not regard the interruption         simply as a disturbance.     -   Also the subscriber directly involved therein can be left at         least partly in the dark about the progress of the GSM fallback:         He knows nothing about whether—after it was triggered in some         way from his side—the GSM fallback of the communications process         actually took place successfully insofar as no other GSM call         had “meanwhile come in” at the communication partner.     -   And both subscribers can be additionally confused if the GSM         fallback—despite the pre-HO-service rendition of the mobile         network operator—for some reason slowed down anyway because the         network technology if anything in the meantime briefly “is         petulant”.

This example shows that—in order to obtain high quality of the service continuity in an HO—even a “seamless MIH” in many cases will require the support through a user-friendly HOCIS-method whereby this concrete implementation is in no way limited as regards content, functional distribution and cooperation with other services.

C.5. Re User Control of the HOCIS Method

Whereas in the previous sections on HOCISs the aspect of their contextual user-information in real time in an HO was at the forefront, it should now briefly be reminded that the HOCIS method also enables the configuration of important other aspects: It allows at least one user in a HOCIS process the capacity by means of his HOCIS at any time:

-   -   To call up different current status information for at least one         HO and/or the HOCIS process associated with it and its past and         possibly future (as with user interfaces of vehicle or aircraft         navigation systems).     -   To input different current instructions for continuing at least         one HO and/or the HOCIS process associated with it.     -   To input different current instructions for selecting the         functionality available to him and/or for local display of these         HOCISs on his terminal device.

Some examples for the functionalities of the HOCISs mentioned here and which can be determined by the user and their local—even temporary—display were/are mentioned at several places in this written specification. According to this the contents details of these functionalities and their local displays are not the subject of this written specification. Its claims deal only with the basic fact of such functionalities of the HOCIS method according to the invention, i.e. the “social” functional reaction extensively shown in section B. of a terminal system/device directly involved in an HO (with the presence of a HOCIS signal in one of the terminal devices of a communications process), but not however impose any restriction on the configuration as regards content and illustration.

C.6. More on the Modelling of the HOCIS Method/Apparatus According to the Invention

The principles of the OSI RM-based modelling of the abstract HOCIS method/apparatus according to the invention were discussed in section B. The application of these principles leads in this patent application to abstract HOCIS method systems and abstract HOCIS apparatus systems which are called uniformly in Section B. HOCIS systems (alias STCP systems). According to the OSI RM both types of HOCIS systems contain abstract functional components (=functional groups) which it names “entities”. It considers these entities alias functional components only insofar as they are relevant for the abstract realization of OSI connections of communications applications and their services.

The communications application at hand here is according to the invention split in two parts and consists of the HOCIS method and the HOCIS apparatus—therefore the two aforementioned types of HOCIS systems. Their aforementioned entities alias functional components are unavoidably found again in a material implementation (=embodiment) of the HOCIS method or HOCIS apparatus in the software and/or hardware components of this embodiment.

Accordingly this written specification in particular considers its abstract HOCIS apparatus—it calls it also “STCP apparatus”, see claim 80—as consisting of abstract HW/SW functional components, wherein this association of a functional HOCIS apparatus component with the HW/SW is completely irrelevant. It is only important that the abstract implementation of the functional components of an abstract HOCIS apparatus can take place by means of

-   -   independent functional HOCIS apparatus HW/SW components or     -   functionally similar and/or functionally suitable PTCP HW/SW         components or     -   functionally similar and/or functionally suitable HW/SW         components of quite different TCPs and/or systems (possibly of         at least one operating system and functional HW components         managed by the latter).

Apart from the first case an “abstract HW/SW resource sharing” takes place between the HOCIS apparatus components and functional components of the other systems mentioned. This abstract HW/SW resource sharing can be found again or not in a material implementation alias embodiment of this HOCIS apparatus and in the first case is called “material HW/SW resource sharing”. I.e.: An abstract implementation of such a HOCIS apparatus in its functional HOCIS apparatus terminal systems at PTCP-SUBCs to which HOCIS is to be granted, can co-use there each time functionally similar or functionally suitable HW/SW components of a PTCP and/or operating system (and functional HW components managed by same) of the SUBC per abstract resource sharing.

Conversely: An abstract implementation of a HOCIS apparatus terminal system of a SUBC requires in some circumstances no independent abstract HW expansion at all of its at least one PTCP terminal system since the abstract HW components of the latter are sufficient for this abstract implementation by means of “abstract HW resource sharing”. This can then also apply for a material implementation of this HOCIS apparatus terminal system by means of this material PTCP terminal system. This is however not a necessary feature of an embodiment alias material implementation of a HOCIS apparatus terminal system so that it could embody claim 80.

An abstract HOCIS apparatus terminal system—the HOCIS method main claim is only concerned with certain functional HOCIS SW components which it regards as executable and calls collectively M(HOCIS)—contains the following abstract HW/SW components (see FIG. 4), which serve to implement the means in the claims 80-91:

-   -   at least one memory (2) for storing its SW components and         HO-relevant information, also the M(HOCIS),     -   at least one processor (3) for executing the functionalities of         these SW components,     -   at least one sending/receiving component (4) of HO-relevant         information over at least one network,     -   at least one detection and/or supplying component (5) of         HO-relevant information, at least one transfer/usage component         (6) of HO-relevant information to/for its SUBC,     -   at least one interface (1) for the interaction of these HW         components, if contained.

This written specification is currently primarily directed at embodiments of the HOCIS method/apparatus which are embodied completely by means of the material PTCP terminal systems and/or material PTCP servers/IADs which exist in any case at a PTCP-SUBC, in that additionally at least one HOCIS module was located each time thereon (which makes special material PTCP and STCP systems out of them). Its protection range is however not restricted to such embodiments, but it comprises—according to the claims wordings/meanings 1-91—also a number of embodiments of the HOCIS method/apparatus which these above-mentioned material PTCP systems of a SUBC supplement for example each time by at least one additional material HW device.

The above discussion about a modelling of the abstract HW/SW components of HOCIS systems—essentially sublimated in section D.—serves only for the elementary clarification of the purely functional type of the HOCIS features (according to the claims wording/meaning) from the implementation of which through a concrete HOCIS embodiment it is to be decided whether the latter encroaches upon the protection area of this written specification or not.

C.7. An M(HOCIS) Design as HOCIS-ISR Server (ISR Interactive Signal Response)

An abstract/concrete realisation/implementation conception of the HOCIS method according to the invention which is of interest to the mass market, more precisely: of an M(HOCIS) therefor, is a HOCIS-ISR server (see section D. and its FIGS. 5 j-l). A HOCIS-ISR server of this kind can detect the presence of any signal in any data stream and react thereto, by providing the subscribers related to it with suitable HOCISs about it.

The login and/or enquiry of a primary communications process subscriber at a HOCIS-ISR server for example can take place vocally and/or through the input of a key combination or an SMS or without any input from his side, but possibly on the side of his ISP or MSP or a third party. The “HOCIS signal response” from the server—if it detects the signal sought by it in the data stream to be observed by it—to the subscriber who is to be informed about it can likewise take place over any network from which the telephone of this subscriber can receive a message.

D. RE SPECIFYING THE UNDERSTANDING OF THE CLAIM 1 WORDING/MEANING

This section D. is to help avoid the meaning and/or protection area of the present patent application from being determined from its descriptions of very limited concrete examples and being restricted to them—which is indeed “patent logically” absurd and more particularly in terms of patent law strictly inadmissible, but which has happened nevertheless to the authors of this written specification in legal disputes in the case of others of their patents and therefore has a very strong impression on the wording of this patent application—and not from its intentionally more abstractly formulated and therefore clearly wider reaching claims wording. The prime point of the method of interpretation, i.e. of the method of determining the content, of a patent from its claims wordings (compared to all otherwise possibilities of a method of interpretation/method of determining content of a patent) is namely fixed unmistakably in all patent law standards.

For these two reasons section D. will explain/clarify below the essence of the invention of the present patent application particularly with reference to its method main claim 1 as well as in particular by means of several dependent claims—namely by deliberately setting out the individual essential features of the (generic) HOCIS-method according to the invention in dependent claims groups. The precise essence of such a technologically complex method (as the HOCIS method according to the invention) can—as the relevant person skilled in the art knows namely not be concluded simply from the standard patent specification constituent parts

-   -   (a) generally construed claim 1 wording/meaning and     -   (b) special descriptions of concrete embodiments (where         applicable with illustrations).

Such a simplification of obtaining this precise understanding of the essence of the claim 1 wording/meaning however is provided by fanning out this meaning by means of a number of dependent claims, namely split into groups of dependent claims illustrating method features (as explained in D.1.). It can thereby remain to be seen whether this procedure also contains a specifying of the single method main claim meaning (which is determined by the aforementioned interpretation according to European Patent Law of (a) by taking into consideration (b)).

A separate explanation of the fanning out of the description of the apparatus main claim meaning of claims 80 and 82 for the purpose of specifying the understanding by means of comparable dependent claims and groups of dependent claims thereafter seems to be unnecessary.

Firstly however there should be a reminder of two aspects—already mentioned in part in this written specification:

-   -   The individual essential features of the method/apparatus         according to the invention are subject to no restriction not         mentioned in this written specification—in particular no         restriction by an “overall connection” of the individual         features of the method/apparatus according to the invention, by         whomever such an “overall connection” may be surmised and         however it may be construed, since it would not be justified by         any word in this written specification.     -   Since all its claims wordings/meanings define these features of         the method/apparatus according to the invention solely in         essence, this written specification says absolutely nothing         about the concrete implementation variations of these         features—which are obvious to the relevant person skilled in the         art—in any one embodiment of the invention, rather these         features are “functional” alias “abstract”, thus “purely         conceptual”.

D.1 Claims Groups and Simplification of Specifying the Understanding of Claim 1

Taking into account that which has just been said, this written specification makes it easier to specify the understanding of the claim 1 wording/meaning by depicting it fanned out into dependent claims 2-79 and sub-dividing this complete fan into 11 “dependent claims groups”: In each such dependent claims group the features explained therein and/or their variations are displayed (by means of the individual dependent claims of this group) namely very much more clearly in their direct comparison than without their being highlighted in such a dependent claims group—so that a key-word description of the “meaning focus” of each dependent claims group in the following already explains the precise understanding of the features/feature-variations/feature-combinations (of the claim 1 wording/meaning determined according to European Patent Law). This dependent claims group technique thus makes it quite considerably easier to obtain this precise understanding.

More precisely and again in other words: The understanding of the individual features or their variations of embodiment according to claim 1 is made unavoidable and focussed through these dependent claims groups and their respective brief description. These dependent claims groups (and their brief descriptions in this section D.) thus make it easier to obtain the precise understanding of the claim 1 wording/content by fanning out their two descriptions—compared to obtaining it solely from the conceptually yet absolutely clear but however mentally complex claim 1 wording/meaning. It is thereby trivial that making it easier in this way to obtain the necessary precise understanding of the claim 1 wording/content—namely by fanning it out by means of dependent claims—in no way changes this. It is therefore irrelevant that such fanning out can as a rule be carried out neither systematically nor totally (even if only because the terms “systematic” and “completeness” are as a rule not definable for this area), but that it can show only some examples of the possible interdependencies which are to be considered between the respective features/feature variations.

This advantage of the subsequent formation of the dependent claims groups is proved by using the example of dependent claims group 10-19 (see also sub-section D.5.): These dependent claims display the feature of the “temporality of a process” in a HOCIS-method and particularly show in which combinations it can implement these feature variations—so that from this follows quite directly a simplification of obtaining the precise understanding of these feature variations and their significance in the claim 1 wording/meaning.

As is seen, this group with regard to the variations of the feature “temporality of a process” consists of at least 10 combination possibilities which are shown here fanned out as 10 “overlapping” dependent claims. This dependent claims group of the HOCIS method main claim does not indeed disclose all chronological overlapping possibilities of the three processes according to claim 1 (PTCP, STCP and HO) explicitly, thus not the entire amount of all “special cases” of the HOCIS method regarding these feature variations, i.e. overlappings of this kind. The entire “special cases group” of the HOCIS method belonging to this feature is however described contents-wise so close-meshed by means of these 10 dependent claims that based on the thus produced specified/focussed overlapping possibilities understanding any further such overlapping possibility (alias feature variations combination) is for the relevant person skilled in the art only an obvious variation of the overlappings/combinations of this type explicitly shown in this dependent claims group.

Based on this specified/focussed overlapping possibilities understanding a HOCIS-process with such overlapping—just because it is not explicitly shown in this special dependent claims group—can thus not be regarded as not belonging to the protection area of the present HOCIS method according to the invention.

Now again independently of the special claims group 10-19: In the following use will be made of this dependent claims grouping technique throughout to specify the understanding of the claim 1 wording/meaning. The grid of such a dependent claims group in fact already reveals to the relevant person skilled in the art all the elements according to the claim 1 wording/meaning of the “special cases group” belonging to it. Each such claims group grid identifies

-   -   on the one hand the group of at least one feature and its         variation/s (of the HOCIS-method according to claim 1         wording/meaning) and     -   on the other hand the combination possibilities of this/these         feature/s and its/their variation/s.

Logically therefore the complete “special cases group” of the HOCIS method belonging to a considered dependent claims group—more precisely: the one belonging to the understanding of the claim 1 wording/meaning depicted fanned out by means of this claims group—consists accordingly of all those of its special cases which correspond to all combination possibilities of this set of feature/s and feature variations. Determining all these combination possibilities is thereby an indeed sometimes extremely complex but nevertheless as a rule trivial “mechanistic” activity after the dependent claims group considered has fundamentally shown up the combination possibilities of this/these feature(s) and its/their variations. However see the disclaimer below to such dependent claims groups.

Thus a special case of the HOCIS method according to the invention with its feature/feature variations combination, which is not explicitly listed in at least one dependent claim of the dependent claims groups displaying this set of features/feature variations, cannot be regarded as not disclosed by the claim 1 wording meaning—only because one of these dependent claims groups does not exhaust all combination possibilities of the set of features/feature variations identified by it (by detailing explicitly all associated special cases). Rather such a special case of the HOCIS method according to the invention must as a rule be regarded as disclosed by this dependent claims group since from it can be derived elementarily—for the understanding of the claim 1 wording/meaning which it clarifies/specifies—both its special features/feature variations and combinations thereof (as shown by way of example by this dependent claims group).

If one wanted to forgo this dependent claims group technique and only regard those special cases of the HOCIS method, which are explicitly revealed in at least one of its dependent claims, as belonging to the claim 1 wording/content and/or protection range, then such a definition of the same protection range would require an unending number of dependent claims. Such forgoing would however not only be impractical but would also contradict the legal concept of the “relevant person skilled in the art” whose capacity to recognise the features/set of feature variations relevant to the dependent claims group and the combinations thereof would be called into question.

Moreover there is not one uniform system for the identification either of dependent claims groups, or of all their features and/or feature variations or of all their reasonable combination possibilities, as already stated above. These steps for to forming/focussing/specifying an understanding regarding the claim 1 wording/meaning must rather each time be carried out independently, but are however as a rule quite simple, and take place

-   -   mostly redundantly—not to say “highly-redundantly”—i.e. one         feature and/or one feature variation or their combination         possibilities are explained by more than one dependent claims         group and/or in one of them in more than one of their (part-)         dependent claims     -   sometimes however non-redundantly, i.e. is explained through         just one (part-) dependent claim in the set of all dependent         claims—which can let this feature/variation/combination appear         as “construed”, which however does not change anything to the         fact it is thereby at the latest at this point conveyed         explicitly to the precise understanding (even if it is         explicitly excluded at a different point in the description),         and in no way are founded only on the set of dependent claims,         because the explanation of one feature or one feature variation         or one of their combination possibilities can be supplied     -   in another description of the method according to the invention         in this specification—if the claim 1 wording/meaning only does         not exclude this feature and/or this feature variation and/or         this combination,         and/or     -   is immediately apparent from the claim 1 wording/meaning—if this         feature or this feature variation or this combination         possibility is/are just not excluded in the other descriptions         of the method according to the invention.

The last two bullet points contain a clear disclaimer regarding the “many dependent claims technique”/“dependent claims group technique”: They imply that even by means of this technique the claim 1 wording/meaning cannot be provided with the predicate “explicitly shown by dependent claim” in all of its ramifications and in its entire scope. Rather this technique serves only to provide a type of “hard core” of all these ramifications and this entire scope with the predicate “explicitly shown by claim”. Insofar as the claim 1 wording/meaning extends beyond this hard core—either as regards its ramification refinement or as regards its overall scope—it remains ultimately up to the relevant person skilled in the art to ascertain this.

Nevertheless carrying out these perception/analysis steps which are indispensable when forming the dependent claims groups, brings about a great advantage: These dependent claims groups provide clarity for the large number of features and feature variations and their combinations of the claim 1 wording/meaning which have to be explicitly addressed by the unavoidably numerous dependent claims and dependent part-claims in order to achieve the intended simplification of obtaining the precise/focussed claim 1 wording/meaning understanding.

So far the general justification—if not even the proof of necessity—for using this dependent claims group technique as soon as the technical method on which it is based extends into the field of software engineering, which is the case in this specification. The following repeated summary of its advantages therefore appears appropriate.

In the present concrete case of the HOCIS method the display of its claim 1 wording/meaning “hard core” by means of this technique is indeed already quite voluminous. The relevant person skilled in the art immediately recognises however that it is nevertheless not exhaustive—i.e. the claim 1 wording/meaning extending beyond this hard core is both more differentiated and also more extensive. This explicitly disclosed “hard core” of the claim 1 wording/meaning—by many dependent claims and their dependent claims groups—only represents a “signpost system” in the latter, but in no way characterises it exhaustively. This only achieves its precise/focussed understanding which was induced/obtained by means of this hard core.

Before the individual claims or dependent claims are explained in sub-section D.5., the conceptual equipment is supplied in the sub-sections D.2.-D.4. for understanding in detail the claim 1 wording/meaning:

-   -   The sub-section D.2. first provides the strategy of this written         specification for “simplifying the specifying of the         understanding” of the claim 1 wording/meaning and for this         purpose explains the significances of the essential individual         claim 1 wording constituent parts.     -   The sub-section D.3. supports this claim 1 understanding         “specifying simplification strategy” by basing it on a         graphically simply illustratable HOCIS reference model         (HOCIS-RM)—which thus makes it easier to focus/specify the         understanding of the claim 1 wording/meaning constituent parts         already explained in D.2.     -   The sub-section D.4. supports this claim 1 understanding         “specifying-simplification-strategy” beyond D.3. by illustrating         with examples in its 18 FIG. 5, how the graphic use of the         HOCIS-RM massively simplifies the precise understanding of the         claim 1 wording/meaning.

The relevant person skilled in the art knows all the methods and procedures provided in D.2.-D.4. for obtaining a precise understanding of the claim 1 wording/meaning which support the interpretation of this patent application—the explicit explanation of the former in this specification is only of use to him to simplify its application.

After these explanations in the sub sections D.2.-D.4.—regarding the precise understanding of the features of the HOCIS method according to the invention, on which the claim 1 is based—the precise understanding of the method of dependent claims groups in sub-section D.5. can be readily achieved through few words.

D.2. OSI RM Specifying/Simplifying of the Understanding of the Claim 1 Wording/Meaning

The claim 1 wording is of a natural linguistic type, its meaning immediately clearly understandable and distinct. The flow chart of FIG. 3 a shows its functional method steps. Its box points at the implementation of which method steps of an embodiment of a HOCIS method is sufficient to qualify it as according to claim 1. In this connection it is reminded that in this patent application no specific contents or features of the individual or overall HO-relevant information are considered—but only by whom to whom it is transferred and that it exists. In particular it is thus not considered here which specific meaning the HO-relevant information displays at all and when it displays it to a communications process subscriber, apart only from the fact that it “has something to do with an HO” (which can be discovered without doubt for any HO-relevant information in a concrete embodiment of the method according to the invention).

-   D.2.1 Since the relevant person skilled in the art is familiar with     the OSI terminology/conceptuality which is “more handy” for him—than     the natural linguistic type—the following pseudo claim 1′ shall     specify for him the understanding of the meaning of the claim 1     wording. Pseudo claim 1′ is thereby only another wording for the     wording of the claim 1, with the two wordings having the identical     meaning. The flow chart of FIG. 3 b shows the functional method     steps of the pseudo claim 1′. -   1′: A method according to claim 1, considered as HOCIS service     (according to the OSI reference model, i.e. provided by means of a     HOCIS-OSI connection) for this SUBC in his HOCIS terminal system     (which is thus a terminal system of this HOCIS OSI connection),     which comprises the following features of this HOCIS service: It     -   I. transfers to the SUBC the HO-relevant information which was         supplied for it by at least one non-human module M(HOCIS) in the         HOCIS-OSI connection,     -   II. starts with establishing the presence of at least one signal         for it in at least one terminal system or server of the primary         and/or secondary telecommunications process,     -   consists of at least the steps:     -   a) checking at least once for the presence of at least one         signal according to II. and     -   b) providing a service according to I.

That the meaning of pseudo claim 1′ is not larger than that of claim 1, is clear to the relevant person skilled in the art since the wording of the former opens no room for any generalisation causing this.

However conversely it is to be ruled out that by specifying the meaning of claim 1 in pseudo claim 1′—by its wider use of the terminology/conceptuality of the OSI RM for describing the meaning of the HOCIS method—no limitation of the claim 1 meaning is undertaken. In this case the pseudo claim 1′ meaning/protection area would be smaller than that of the claim 1. Pseudo claim 1′ would then be a genuine dependent claim of claim 1.

The following pseudo claim 1″ explicitly shows the hypothetical restrictions of the pseudo claim 1′ in respect of claim 1: A HOCIS method according to pseudo claim 1″ would indeed logically be according to claim 1 but not according to pseudo claim 1′—(because it does not meet its restrictions).

-   1″: A HOCIS method according to claim 1 for which the following     applies:     -   a) no transfer of HO-relevant information therein is a HOCIS         service according to pseudo claim 1′ and/or     -   b) no transfer start therein is a HOCIS service start according         to pseudo claim 1′.

The evidence for the fact that there are no HOCIS methods according to pseudo claim 1″—that thus pseudo claim 1′ contains no restriction in any way in respect of claim 1—is trivial: The assumption of the existence of a HOCIS method according to pseudo claim 1″ is immediately reduced to absurdity because it proves to be for the relevant person skilled in the art according to pseudo claim 1′ and thus not according to pseudo claim 1″, which contradicts this assumption.

An initial understanding of the claim 1 wording/meaning in this way is specified in this section D. through many further explanations. It thereby applies that all these explanations about claim 1 also analogously apply for pseudo claim 1′.

The following specifications for understanding the essence of the HOCIS method sometimes use its description through the pseudo claim 1 wording, i.e. the wording based on “OSI RM made up words/terms” familiar to the relevant person skilled in the art. However any explicit use of “OSI RM made up words/terms” is redundant insofar as just solely the natural verbal descriptions of the HOCIS method/apparatus according to the invention and the associated claims wordings clearly and unmistakably define the meaning thereof, i.e. rule out their double meaning interpretation, i.e. correspond to the concerns of the OSI RM. Such explicit references to the OSI RM made-up words/terms—for example in the explanation of the participation structure of an STOP according to claim 1, i.e. more precisely: the STCP OSI connection—are only meant for the relevant person skilled in the art, for his self-ascertaining of the correctness of his understanding of the following specifications of the natural verbal claim 1.

-   D.2.2. Firstly Some Simple Clarifications of that which Claim 1 does     not Rule Out.     -   The claim 1 wording/meaning contains for the HOCIS method         according to the invention (which is associated with an HO of a         PTCP) “no restriction to human/automatic communications         processes between SUBCs”, namely to communications processes         between a human subscriber (on L7) indirectly involved in the HO         and at least one non-human M(HOCIS), thus an automaton (which is         located therein on any Li, 1<=i<=7), directly involved in the         HO. Rather it permits also person/person and automaton/automaton         communications processes (see the definition of SUBC in section         B.).     -   claim 1 knows “no technical detail as regards the internal         communication in a HOCIS terminal system”—it uses the expression         “transfer of HO-relevant information” in the generic sense and         this therefore contains no restriction whatsoever, The term         “transfer of HO-relevant information” enables in particular that         this information is made available to the SUBC anytime and         anyhow for notification—that he then also actually has take note         of them is not implied in this term.     -   The term “transfer” of HO-relevant information to the SUBC in         claim 1 is moreover completely abstracted as regards the         communications technical or local realisation of this transfer.         More precisely: This transfer to the SUBC can take place over a         network between the two involved HOCIS systems by including any         functionality in the SUBC terminal system or locally solely in         the latter.     -   The term “supplying” HO-relevant information for transferring to         the SUBC in claim 1 means that it is detected by a non-human         module M(HOCIS)—in the SUBC- or another HOCIS terminal         system—and is forwarded from there for transfer to the SUBC.         There is therefore only two variations from where HO-relevant         information can get through to a SUBC: this is supplied only         either by the M(HOCIS) of another HOCIS terminal system and/or         from the M(HOCIS) of the SUBC HOCIS terminal system.

Present day telephones are unable to provide a HOCIS according to the invention in the latter way but can very easily do so in the former way (see the explanations re FIG. 5).

-   -   The term of “checking for the existence of a HOCIS signal”         according to claim 1 is likewise not restricted in any way. It         says absolutely nothing regarding the terminal systems and/or         forms of the existence and/or type of the HOCIS signal to which         it can refer. The checking for the existence of a HOCIS signal         takes place in particular in a HOCIS terminal system and can         start at absolutely any time whereby as regards potential HOs         there can be more than one checking/checked potential HOCIS         terminal system. This in no way is a contradiction to the fact         that PTCP and STCP terminal systems can be identical in concrete         embodiments of the present invention (see next but one         paragraph).

According to claim 1 a concrete embodiment of a HOCIS method thus encroaches into the protection rights aimed at by this patent application as soon as it—after the just discussed checking for the existence of some HOCIS signal in any terminal system as regards a potential or current HO—starts the transfer of an information relevant to this HO (to a SUBC suitably involved in this HO). I.e.: the success of this transfer to the SUBC in any extent is irrelevant for this encroachment.

As regards the dissimilarity/identity of/with each other of the terminal devices of a SUBC for its PTCP and at least one STCP, as regards the (non-human) functional module M(HOCIS) and as regards the originarity/transfer of HO-relevant information in claim 1 that which has already been said about this in the preceding sections and also that which will be explained on this in this section is to be taken into account, more particularly:

-   -   These PTCP and STCP terminal devices can with one SUBC (both in         an abstract realisation and in a concrete implementation) be         identical or partially or totally different from one another,         the latter also TCP and/or HO and/or SUBC specific.     -   One or more HOCIS terminal systems (more precisely: by means of         their respective M(HOCIS)) can be involved in the producing         and/or transferring of the HO-relevant information.     -   The producing and/or transfer of HO-relevant information to a         SUBC can be previously agreed “statically” for at least one         M(HOCIS), thus its system, i.e. that with the occurrence of at         least one specific condition in this M(HOCIS) system         single-handedly and/or with the aid of at least one further         system, this production and/or this transfer of HO-relevant         information to a SUBC of the PTCP takes place wherein this         M(HOCIS) system can be the SUBC HOCIS terminal system itself.

That which has been said above particularly does not rule out that at least

-   -   one of the SUBCs of a HOCIS TCP in one or both terminal systems         of at least one of its HOCIS OSI connections—in each of its         terminal systems its current STCP-SUBC can change at any time         where necessary—is permanently or temporarily an automaton,     -   a one terminal system and/or SUBC of the PTCP in which the HO         takes place is different from all the HOCIS terminal         systems/TCP-SUBCs of the HOCIS TCP associated with this HO—and         vice versa,     -   one PTCP terminal system uses a network different from a network         which a HOCIS terminal system (of the HOCIS process associated         with this HO) uses wherein both terminal systems accommodate at         least one common PTCP-/STCP-SUBC or not.

D.3. HOCIS RM-Based Specifying of the Understanding of the Claim 1 Wording/Meaning

The basic specifying of the understanding of the claim 1 wording/meaning took place in the previous sub-section by using the OSI RM as the basis. The sub-sections D.3.-D.5. now show that there are HOCIS TCPs whose specifying/simplifying the understanding thereof suggest that their explanations are based on a common “HOCIS reference model” (HOCIS RM)—because this makes many of the explanations superfluous which otherwise each of these HOCIS TCPs would require.

In view of the lesson described at the start of this section D. which the author of this written specification annoyingly received on account of others of his patents relating to communications technology, this effort in simplifying creating/specifying the meaning for claim 1—which under normal circumstances would be regarded as excessively long drawn out—is justified. Normally the relevant person skilled in the art would base the reading of claim 1 on his own on such a model.

The HOCIS RM is compulsorily apparent from the general principle on which the OSI RM is based (particularly its above mentioned L7 standard) for the analysis of a TCP alias of a communications application. The special module sub-division shown below of its M(HOCIS) is thereby HOCIS-method-specific. This special module sub-division of the M(HOCIS) and its use in the FIG. 5 is very helpful, simple and precise to show whether a specific HOCIS method

-   -   is according to claim 1 (alias according to pseudo claim 1′) or         not, and this     -   both in its abstract and also concrete         realisation/implementation.

The detailed nature of the following explanations of the HOCIS RM and 18 FIG. 5 should not be annoying:

-   -   The relevant person skilled in the art knows the inevitability         of exactly this type of OSI-RM-based modelling of the conceptual         basis of a non-trivial communications-technical method for the         purpose of a simple and unmistakable understanding of its         description-wording—thus the necessity of the HOCIS RM therefor.     -   The 18 FIG. 5 serve for simplifying the understanding of the use         of the HOCIS method—they only show the most important of its         many useful possibilities.

Now to the structure of the HOCIS RM. Only for the purpose and area of these FIG. 5 do we make the somewhat simplifying assumption (already mentioned above) that the abstract realisation of the abstract STCP terminal devices takes place in abstract PTCP terminal devices (i.e. here: in abstract telephones and/or abstract servers/IADs). With the PTCP-SUBCs there are then no independent HOCIS terminal devices. This simplification however does not rule out that the abstract realisation of at least one abstract HOCIS terminal device

-   -   takes place by means of more than one abstract PTCP terminal         device (thus “distributed”) and/or even     -   completely outside of the abstract PTCP terminal devices (thus         “outsourced”)     -   both used in the last FIG. 5. This simplification is anyhow         irrelevant for the method main claim (since it is completely         abstracted from realisation aspects), and apparatus dependant         claims explicitly disclose that the apparatus main claim is not         based on it.

For the purpose of illustrating the HOCIS RM we will now consider the most important structure elements of FIG. 5 (whose details are explained in sub-section D.4.), because they are the most important part of the HOCIS RM. These are alone the functional M(HOCIS) modules and their subdivision into M-Lo-/M-Hi-modules, as well as the dotted lines running between the M-Lo-/M-Hi-modules. (In addition these figures contain some accessories which are, however, irrelevant to the HOCIS RM itself, which only indicate its surroundings. Two examples of this are: Their bold double arrows which stand for respectively one TCP OSI connection and their terminal system boxes which each contain at least one M(HOCIS) and outline the relevance thereof to reality, as will be explained below). It should be noted that it is completely irrelevant here which entities alias modules of the PTCP there are—apart from the PTCP terminal systems themselves, for more on this see above, —which are therefore neither shown here.

The HOCIS RM undertakes as regards the abstraction level and meaning contents of the layers 4-7 according to the OSI RM, and thus with regard to the M(HOCIS), one of the nowadays often practiced simplifications (see for example J. Schiller, Mobile Communications, page 17, ISBN-13: 978-0-321-12381-7): By “L7” is meant here the entirety of L4-L7 of the OSI RM—wherein the bold type of L7 is meant to indicate this oversimplification of the OSI RM terms/conceptuality for the purpose of simplifying the following explanations. This notation simplification thus implies no modification of the terms/conceptions of the OSI RM—which are used furthermore and without bold type—and no change of meaning of the claim 1 wording.

Corresponding to this simplification the FIG. 5 show of these HOCIS TCP terminal systems—they are, owing to the above simplification, mostly also PTCP terminal systems, see above—respectively only their providers of their “L7-HOCIS functionality” through the L7-M(HOCIS) modules. The latter are shown by the shaded areas in the two aforementioned informal L7-HOCIS terminal system boxes. According to the OSI RM the L7-HOCIS functionality is provided by L7-HOCIS interactions of the L7-M(HOCIS) alias “L7 entities” in and by means of the HOCIS-OSI connection—here more precisely: in/by means of their L7 HOCIS OSI connection.

Some explanations about the (initially two each) L7-HOCIS terminal system boxes: Their two inner columns show the respective L7-M(HOCIS) whilst their two outer columns show the site of the (abstract) implementation of the respective L7-M(HOCIS) in its terminal system, i.e. an abstract telephone apparatus or IAD or its abstract user alias SUBC (insofar as this is present).

The latter divides an L7-M(HOCIS) into abstract realization alias abstract levels:

-   -   The upper abstraction level models the entity of the abstract         interactions of the L7-M(HOCIS)—with whomever—for the purpose of         the transfer according to claim 1 of HO-relevant information to         a SUBC.

The lower abstraction level models the entity of the abstract interactions of the L7-M(HOCIS)—with whomever—for the purpose of detecting/modifying/evaluating/generating/. . . the HO-relevant meaning of at least part of this information, thus the supplying of HO-relevant information, prior to the transfer according to claim 1 (as well as the L4-L6 OSI RM meanings which are to be added through the above L7 oversimplification).

Accordingly, in the HOCIS RM each L7-M(HOCIS)-entity/module consists of an “L7-M(HOCIS)-Hi”-entity/module and an “L7-M(HOCIS)-Lo”-entity/module.

In the following the prefix “L7-” and the suffix “-entity/module” are mostly omitted—as also increasingly the character strings “(HOCIS)” and “HOCIS”, particularly in the module identifiers.

Further Details

-   -   on these two types of interactions of the two respective M-Hi         and M-Lo in each HOCIS-OSI connection—with whomever—and     -   on the HO-relevant information to be transferred are not         considered in the HOCIS RM.

The question of whether a HOCIS TCP is according to claim 1 or not is decided by the “participation” of the M-Hi and M-Lo modules in the HOCIS TCP terminal systems in supplying and transferring HO-relevant information to one of their SUBCs. In OSI RM terminology/conceptuality: is decided by the participation of the M-Hi and M-Lo modules in at least one L7-HOCIS-OSI connection of this STCP (as will become apparent shortly).

Accordingly in the HOCIS RM of an STCP generally only its at least one L7 STCP-OSI connection is considered wherein it models its interaction with a

-   -   SUBC as interaction with the M-Hi corresponding to it, and     -   terminal device as interaction with the M-Lo corresponding to         it.

In other words: In the HOCIS RM a PTCP-/STCP-SUBC is modelled in a PTCP/STCP terminal system by an M-Hi, and the M-Lo therein models its supplying-functionality of HO-relevant information. These pairs—(last mentioned functionality, M-Lo) and (SUBC, M-Hi)—are thus respective synonyms in the HOCIS-RM. The semantics of the interactions inside each of the two synonym pairs is outside of the HOCIS RM.

In the HOCIS RM the term/conception of “participation” of an M-Lo and M-Hi respectively in the supplying and transferring of HO-relevant information has prime importance. It means: An M-Lo or M-Hi is “participating” in the transfer according to claim 1 of HO-relevant information if this is generated and/or detected and/or modified as regards contents or display and/or is supplied and/or is forwarded and/or received and/or consumed by it partially or totally in some way. This participation of an M-Lo or M-Hi respectively stands for the participation of its respective M(HOCIS). It takes place as a rule automatically, but can however also be initiated where necessary by the SUBC.

A thus participating M-Lo or M-Hi of the HOCIS RM is also called in this printed specification a “relay” alias “L7-relay”. (An L7-relay is thus a conceptual coarsening of at least one OSI RM type Li-specific relay—following the conceptual coarsening shown above of the higher Li-connections to an L7 connection). The two relays in the initiator and addressee modules respectively of a transfer of HO-relevant information are called “terminal points” of this transfer, wherein (according to claim 1) the addressee module is always an M-Hi and at least one M-Lo always participates in the transferred HO-relevant information. In order to distinguish these two initiator and addressee HOCIS terminal points of a transfer of HO-relevant information from further “relay points” of this transfer, in FIG. 5 the former are marked by a solid and hollow bullet respectively and the latter by a bold cross. A HOCIS relationship defined by the terminal points of a transfer between the STCP terminal systems can exist both temporarily or permanently and bi-directionally or uni-directionally or even not at all.

In simple cases only one M-Lo directly involved in the HO and one M-Hi indirectly involved need participate as terminal points in a transfer according to claim 1 of HO-relevant information between two STCP terminal systems. It can be “relayed” by the telephone-resident part (see below) of the directly involved M-Hi, which causes these two to be participated, or through the indirectly involved M-Lo, which causes this to be participated—if these are present in the two terminal systems.

The dotted lines of the 18 FIG. 5 show—for a transfer of HO-relevant information—both the sequences of the inclusion of the M-Lo/M-Hi into such participations and also their respective basic relaying functionalities therein. This route of the dotted line is called “participation structure” in a transfer of HO-relevant information.

The HOCIS RM makes the precise understanding easier of the claim 1 wording/meaning—which for reasons of simplification is by way of example restricted in FIG. 5. In particular it is easily seen that in a transfer of HO-relevant information according to claim 1 to an M-Hi this was supplied for this by an M-Lo in

-   -   either a different HOCIS terminal system than that of the M-Hi     -   and/or the HOCIS terminal system of this M-Hi.

D.4. Facilitating the Understanding of the Claim 1 Wording/Meaning by the FIG. 5

Now for facilitating the precise understanding of the claim 1 wording/meaning by means of the HOCIS RM and the 18 FIG. 5 wherein the simplifications mentioned above are retained.

-   D.4.1 In order to avoid any uncertainty regarding the HOCIS RM in     the FIG. 5 it should be noted in addition that an (abstract)     interaction between the     -   M-Hi and the perception-/generating-/understanding-functionality         of the real telephone user modelled by it (the latter outside of         the HOCIS RM) locally for the most part is located in his head,         partially however also in his telephone (owing to the abstract         hardware of the human/machine interface of the telephone, e.g.         its microphone, speaker, display, keypad, . . . ). This         conditions the low position of a part of the lower edge of the         M-Hi in the FIG. 5.     -   M-Lo and the real supplying-functionality modelled by it of         HO-relevant information (the latter outside of the HOCIS RM)         according to the invention must allow an M-Hi to find out about         the result of this interaction. According to the invention the         M-Lo must thus be able to communicate with an M-Hi and for this         to comprise the M-Hi functionality required for this (for         example for the generating and inserting into the voice channel         for this M-Hi of HO-relevant voice information for         it)—independently of whether the user of its own telephone is         participating in the HOCIS TCP or not (for example because he         has just locally switched it off for himself. This conditions         the high position of a part of the upper edge of the M-Lo in the         FIG. 5.

An M-Hi or M-Lo of an M(HOCIS) respectively is thus in the HOCIS method—and therefore the HOCIS RM—not restricted to its respective “actual” abstraction level: Rather in the HOCIS RM parts of both the M-Hi and of the M-Lo functionalities are located on the respectively other abstraction level and these parts are then sometimes called “non-actual” M-Hi or M-Lo.

Dividing up these entities/modules of the M(HOCIS) into the two abstraction levels of the HOCIS RM facilitates a specific and very technical manner of specifying the understanding of the claim wording/meanings of this patent application. However it is possible to dispense with this division: None of the claims namely makes use of it. They all dispense with a rigorous sub-division of an M(HOCIS) and use instead some M(HOCIS) attributes—which compared to it are more colloquial, simpler and entirely adequate—which sub-section D.4.12. summarises/defines.

-   D.4.2. FIGS. 5 a-b show firstly that claim 1 does not include a     HOCIS method, whose STCP OSI connection (the PTCP OSI connection is     not considered, as already mentioned above) has only either solely     the displayed Hi or Lo connection on the L4-L7 of the OSI RM. The     reason for the exclusion from the claim 1 protection area of these     two types of HOCIS OSI connections on the basis of their     participation structures—although they do not correspond to any     state of the HOCIS technology because this does not yet exist (see     the section A.)—is that the participation structure in 5 a would     offer an obvious (and thus not capable of protection) HOCIS     technology and the one in 5 b would offer no HOCIS technology at     all:     -   In 5 a the two telephoning parties discuss by means of the         Hi-connection something as regards an HO—presumably thus carry         out some HOCIS for one another—but the non-human module of this         terminal system directly involved in this HO according to claim         1 does not participate in such a HOCIS-OSI connection (and thus         in the HO-relevant information transferred in it).     -   In 5 b the telephone user indirectly involved in an HO does not         participate in such a HOCIS since the HOCIS OSI connection         here—it contains on L4-L7 solely the abovementioned         Lo-connection—does not enlist the indirectly involved M-Hi—i.e.         it transfers no HO-relevant information to its SUBC.

It should be noted however that it does not interfere in an STCP OSI connection according to claim 1 if this additionally contains a Hi-connection and/or Lo-connection.

-   D.4.3 The four FIGS. 5 c-f show next the participation structures of     only four of the thus far simplest HOCIS OSI connections according     to claim 1, insofar as the telephone indirectly involved in the (for     example potential or current) HO contains no M-Lo—i.e. the     implementation of this telephone does not support the HOCIS method     in any way, thus for example is a present day standard telephone.

These pragmatically therefore important participation structures according to claim 1 of these four HOCIS OSI connections incidentally display as regards the HOCIS for a PTCP-SUBC indirectly involved in an HO the central message of the invention according to the claim 1 (the significance of the HOCIS method for the directly involved PTCP-SUBC will be considered further below). In order to graphically emphasise which of the two PTCP-SUBCs is the most favoured each time in the following FIG. 5 through the HOCIS, it is shown with a thicker border (than that of the other SUBCs)—this is also the SUBC in whose M-Hi the “participation structure ends”.

More precisely: Once one is conversant with these four participation structures then the “participation structures according to claim 1” reveal no more misunderstandings up to FIG. 5 i regarding the HOCIS for a PTCP-SUBC indirectly involved in an HO. More particularly it should be pointed out here that—if the indirectly involved telephone contains no M-Lo—there is for the communication between two terminal systems only the “voice channel” for the exchange of HO-relevant information of the STCP (whilst there can otherwise be for this for example another concurrent “data channel” for HO-relevant non-audio information of the STCP.)

In these four figures it is only assumed that the indirectly involved telephone user correctly understands the HOCIS transferred in natural speech (and transferred by “voice channel”) to him, This articulates the modelling of this user—thus that he knows how to correctly interpret this HOCIS—by allowing him an M-Hi. I.e.: The modelling of an absolutely “unable-to-understand-HOs” or absent indirectly involved SUBC would provide no M-Hi.

-   -   In FIG. 5 c the user of the telephone directly involved in an HO         has nothing to do with the HOCIS TCP, his actual M-Hi is not         participating in such (but only his telephone-resident part,         i.e. his non-actual M-Hi, see above)—for some reason, possibly         because he does not wish to be bothered by it and therefore has         temporarily switched off his HOCIS interactions or because he         simply does not care about it. Here the actual M-Lo directly         involved in the HO initiates the HOCIS TCP and transfers an         HO-relevant information to the actual M-Hi indirectly involved         therein—wherein this transfer is relayed from the former to the         latter in the directly involved non-actual M-Hi and the         indirectly involved non-actual M-Hi. The first M-Hi-relay         thereby provides as regards the transfer according to claim 1 of         HO-relevant information the “translation functionality”         corresponding to it (here: for the HO-relevant information of         the directly involved M-Lo to generate a message of identical         contents in human language and to insert this into the voice         channel to the indirectly involved non-actual M-Hi, i.e.         initially to its speaker relaying this message to its subscriber         or to its buffer—whenever the directly involved M-Lo wants to         let the SUBC to have this HO-relevant information, alias this         HOCIS).     -   The novelty of the FIG. 5 d over 5 c exists solely in that now         the STCP, i.e. its HOCIS OSI connection, is initiated by the         directly involved actual M-Hi (thus by the model of the directly         involved SUBC). It must then enlist the directly involved actual         M-Lo (thus the model of the directly involved telephone) (in         order to supply there HO-relevant information for transfer to         the indirectly involved actual M-Hi)—after which it continues as         in 5 c. The relay in the directly involved non-actual M-Hi on         this route now provides as regards the transferring according to         claim 1 of HO-relevant information the translation         functionalities (additional compared to 5 c) corresponding to         it, namely the translation of the selection of the HO-relevant         information selected by the directly involved initiator of the         HOCIS OSI connection in the directly involved telephone/s in         their corresponding detecting in the M-Lo.     -   The novelty of FIG. 5 e compared to 5 d consists solely in that         now the directly involved M-Lo is able to supply the HO-relevant         information selected by its M-Hi (=SUBC)—which the M-Lo         accordingly supplies for the transfer to the indirectly involved         M-Hi—but it can however only transfer it to its own SUBC M-Hi,         e.g. by its graphic display. This SUBC (=directly involved         actual M-Hi) must now itself for example “packet” it into a         message in human language and relay this HO-relevant information         to the directly involved non-actual M-Hi, i.e. to its         microphone—after which it continues as in 5 c. The directly         involved SUBC here acts thus as a relay (additional compared to         d).     -   The novelty of FIG. 5 f over 5 c consists solely in that there         is here now no telephone user directly involved in the HO. This         corresponds to the practical situation that for example at the         moment of initiation of the HOCIS OSI connection through the         directly involved L7-M-Lo the user of this telephone has         temporarily suspended his PTCP on which the HO relating to it is         based, in order to temporarily participate with his telephone in         a different PTCP (which has nothing to do with this HO), so that         he cannot learn anything about the STCP of the first PTCP. The         HOCIS RM displays this through the absence of the directly         involved actual M-Hi. Accordingly with this HOCIS method the         directly involved M-Lo has the functionality which its         non-actual M-Hi has in 5 c.

It can be seen in the participation structures of these figures that

-   -   one module is repeatedly participating in several of them.         According to claim 1 this fact is no problem at all. Since         moreover claim 1 requires no multiple participations, in the         following figures increasingly of several relay points of one         module in a participation structure only one will be displayed         anymore, with which it is also consistent that     -   the M(HOCIS) functionalities in its non-actual M-Lo can be         displayed in its non-actual M-Hi and vice versa so that the         HOCIS RM could combine both equally well into one M-HiLo—if one         disregards the impairment in aesthetic categories sometimes         caused thereby which the relevant person skilled in the art         would however recognise as such and which would therefore be         irrelevant here.

With regard to the four figures previously explained, it can be noted that they in no way list all the participation structures of the transfer according to claim 1 of HO-relevant information in HOCIS processes in which the indirectly involved telephone cannot support a HOCIS process (because it contains no M-Lo functionality, as modelled in them). The relevant person skilled in the art namely immediately recognises that for example all 4 types of HOCIS OSI connections just explained can as well be initiated by the indirectly involved PTCP-SUBC—possibly by typing in a DTMF code or by his input of a natural-language command or by transmitting an SMS message or another signal over any network (which can be modelled by its correspondingly functionally specified M-Hi), to the receipt of which the directly involved M-Hi and/or M-Lo suitably reacts. The associated participation structures are in the meantime obvious—thus need not be demonstrated or discussed further here.

It would be equally superfluous to discuss the fact that the claim 1 wording/meaning also covers HOCIS methods which provide before/at the required transfer there of at least one HO-relevant information some other information exchange and/or some interaction between whomever.

This biodiversity of already the most elementary “participation structures” according to claim 1 is considerably increased in that the left or both of the telephones just considered is/are (an) FMC telephone(s) in which the GSM/CDMA—and WLAN/Femtocell-functionalities have different HOCIS functionalities. Since the new participation structures made possible thus are “straightforwad derivable” fixed-mobile combinations of the previously shown participation structures, they are not elaborated on further in this written specification—because they can be identified by the relevant person skilled in the art without problem. I.e. the exemplary HOCIS configurations of FIG. 5 are based on the further simplifying assumption that the HOCIS functionalities of the fixed and mobile components in these configurations would be identical. Claim 1 does not undertake such a restriction—as it obviously does not undertake any restrictions as regards telecommunications networks.

-   D.4.4. The two FIGS. 5 g-h show the participation structures     corresponding to the two FIGS. 5 c-d which become possible in that     the indirectly involved telephone now contains likewise a complete     M(HOCIS), i.e. an M-Lo, too—each terminal system with an     “HO-knowledgeable” PTCP-SUBC (see above) contains an M-Hi—so that     there can be between the two terminal systems in addition to the     “voice channel” a “data channel”, too, for the transfer of     HO-relevant information. Complementary or alternatively to the until     now generally single “communications channel” between the two     telephones and their SUBCs, the “voice channel”, it is possible for     HOCIS methods to use these functionalities and operate a “data     channel” between their two M-Los, wherein this can use the same     network with the same network features as the voice channel or uses     at least another networks variation.

To conclude the discussions up to here about participation structures in “server-free” (as a rule “subscriber/subscriber”) transfers of HO-relevant information it should be noted that in these exemplary scenarios a terminal device without M-Lo directly involved in an HO—i.e. a current “GSM/CDMA only” telephone—cannot initiate the HOCIS method, more particular: an STCP, by itself. But in the case that it cooperates with a HOCIS server/IAD (or HOCIS telephone) this can change insofar that these HOCIS terminal systems realise a “virtual M-Lo”, as will become clear below.

-   D.4.5. The 10 FIGS. 5 i-r show in turn examples of the simplest     participation structures according to claim 1 during the transfer to     a PTCP-/STCP-SUBC of any HO-relevant information, now however with     the aid of the functionality of a “HOCIS server”—preferably     developed as “HOCIS IAD”—firstly in the 6 FIGS. 5 i-5 n. The 4 FIGS.     5 o-5 r then explain a further HOCIS-IAD becoming available,     -   These 10 figures show simplest participation structures not         insofar as that all already previously explained participation         structures according to claim 1 during the transfer of         HO-relevant information are repeated, but now with the use of a         server/IAD as L3-router in the STCP OSI connection on which this         transfer is based. In this case this server/IAD did not         contribute itself to the HOCIS communications application, more         precisely: the L4-L7 of this HOCIS OSI connection would not see         the use of this server/IAD at all so that its participation         structure cannot be changed by the HOCIS server/IAD, thus is         already included in the above.     -   Rather in the following the server/IAD now contributes to at         least one HOCIS communications application itself (more         precisely: to the L7-connection in its OSI connection): It         belongs with at least one of its M(HOCIS) modules to its         participation structure. This case is particularly important if         the telephone involved in the (for example potential or current)         HO cannot itself support a HOCIS process (it contains no         M(HOCIS), thus is a conventional telephone): A suitable         “proxy-M(HOCIS)” in at least one server/IAD can then compensate         for “HOCIS inadequacies” in a PTCP/STCP of such a “non-HOCIS”         telephone—as will be explained in further detail below.     -   The difference between HOCIS servers and HOCIS IADs is thereby         to be seen mainly in the fact that the former are realised as a         rule technically “WLAN-independent” and as a rule are under the         control of a “WLAN-independent” administrative management,         whilst the latter are as a rule dependent in some way or other         on at least one WLAN.     -   These 10 figures show finally examples of the simplest         participation structures according to claim 1 with         HOCIS-servers/IADs insofar as they postulate the additional         simplification, —extending beyond the simplifications provided         up until now—that each time only one single HOCIS server/IAD         belongs to the participation structure of an STCP OSI         connection. This however in no way means that a SUBC STCP         terminal system would at any time support only one STCP, as         discussed in detail in the two FIGS. 5 q-r.

The relevant person skilled in the art can ascertain without problem at the latest on this understanding basis—covering the following comments on the 10 FIGS. 5 i-r—of a concrete embodiment of a HOCIS method (with or without support through at least one HOCIS server/IAD) whether the participation structure of its OSI connection is according to claim 1 or not, even if it embodies none of the aforementioned simplifications.

-   -   FIG. 5 i provides a particularly simple insight into a simple         “HOCIS configuration with HOCIS IAD”: Its right hand M(HOCIS)         corresponds to one in 5 c-h whilst the left M(HOCIS) does not         differentiate between HOCIS-IAD and directly involved terminal         system, thus postulating that both form a unit. For reasons of         clarity the PTCP and the STCP OSI connection are shown here (and         in the following) separately from one another, wherein both OSI         connections         -   on the right with the M(HOCIS) end in a common PTCP/STCP             terminal system, whilst         -   on the left the both the PTCP L7-connection (of the PTCP OSI             connection) and also the STCP L7-connection (of the STCP OSI             connection) can each end independently of one another in a             SUBC PTCP or SUBC STCP terminal system or PTCP IAD or STCP             IAD terminal system (or mixed in any way). In 5 i in             particular—with regard to the STCP—the M-Hi- and/or             M-Lo-functionalities of the directly involved telephone can             thus as a whole or in part be duplicated in the IAD,             distributed complementarily to both devices or be located             solely in the IAD. The FIGS. 5 j-n fan out this further,             starting from the structure explanation of the next             paragraph.

In 5 i the HOCIS IAD can therefore—as regards the at least one STCP supported by it—contain at least the following three different M(HOCIS):

-   -   one M-Hi for an STCP of the IAD with the indirectly involved         telephone     -   one M-Hi for an STCP of the IAD with the directly involved         telephone,     -   one M-Lo which can provide completely or partially the         functionality of a directly involved M-Lo regarded up until now         as telephone-internal—this M-Lo in the IAD is then thus the         already aforementioned “proxy-M-Lo” of the telephone or its user         alias its “virtual M-Lo” in the IAD.

A virtual M-Lo of a PTCP/STCP terminal system or its user will be discussed from time to time further on and then—for the reasons mentioned in sub-section D.4.12.—is called its “virtual M(HOCIS)”. It can execute the M-Lo-information detection/transfer better in some circumstances than a telephone-internal M-Lo: It can for example still have access to the voice channel between the M-Hi of the two telephones, whilst a telephone-internal directly involved M-Lo has already lost this access to the indirectly involved M-Hi.

Right here reference is made to the special features as regards connectivity of a virtual M(HOCIS)/M-Lo of an STCP system: The transfer of an HO-relevant information from/through this virtual M-Lo to the PTCP-SUBC can

-   -   require a relay in his STCP terminal system. This patent         application regards such a relay as non-existent if it contains         no additional M-Lo-functionality (otherwise it is itself an         M-Lo)—it can thus regard a virtual M-Lo of a SUBC PTCP/STCP         terminal system as belonging to this.     -   always be implemented abstractly by means of at least one         abstract “PTCP channel”-suited information channel to this         SUBC—in any case so long as there is any kind of connectivity of         the PTCP terminal system (see the explanation re FIG. 5 p). This         also applies as a rule for a material implementation of such an         abstract implementation.     -   also, based on its uni-directionality and its low bandwidth         requirement, be implemented over a broadcast-network/network         feature suitable for this.

The relevant person skilled in the art knows that in all these cases it need not follow from this that this HO-relevant information can be offered to the SUBC only in the information display of this PTCP data channel. For example: If this PTCP data channel is a voice channel, if the terminal device has suitable DTMF functionality, and if it can be programmed sufficiently flexible—which is e.g. is the case in many of the standard telephones of the present day—then it can also be offered for example textually to him. By the way, by dispensing with such an information display-conversion (when using the voice channel just mentioned to the SUBC) obviously a relay can be dispensed with in the SUBC terminal system—which makes possible the HOCIS of the users of present day standard telephones through HOCIS IADS, thus without having to modify these telephones in any way. The great economic significance of such IAD-supported HOs is apparent from claims 70-79 and the comments thereon in sub-section D.5.

Thereby not all HO-relevant information ultimately transferred to the SUBC need be made available to the virtual M-Lo in the IAD as regards a potential or current HO of its directly involved WLAN-/Femtocell telephone. Rather the definition of “HO-relevant information” allows for the fact that this M-Lo (e.g. its detection of HO-relevant information regarding the directly involved PTCP terminal system) is relocated totally or partially to at least one HOCIS server/IAD/telephone and the M-Lo information thus collectively obtained where necessary is transferred to a SUBC—thus even if HO-relevant information is contained in it which was not detected by the M-Lo of the directly involved terminal system. For claim 1 a virtual M-Lo for a directly involved STCP terminal device—in for example an STCP server/IAD—is therefore of equal value to an STCP terminal device-internal M-Lo.

I.e. more particularly: Even if a directly involved SUBC STCP terminal system of an STCP actually contains no internal M-Lo, but has however a virtual M-Lo (for example in a server/IAD/telephone) then this STCP participation structure however starts in this SUBC STCP terminal system—thus not in an STCP terminal system which contains this virtual M-Lo as a whole or in part.

The focus will now be in the following on the fact that in 51 no HOCIS-TCP/method (and its participation structure) according to claim 1 was explicitly shown between the HOCIS server/IAD and the directly involved telephone—but based on the significance especially of these thus structured HOCIS TCPs alias STCPs for this written specification, these require clarification of understanding. This is now provided by the 5 FIGS. 5 j-n in which therefore the SUBC in the directly involved STCP/PTCP terminal system has the thick border.

-   D.4.6. In the two FIGS. 5 j-k the telephone (shown on the left) is     itself in turn not HOCIS-enabled, but the IAD (shown on the right)     contains its virtual M-Lo already just mentioned. The relevant     person skilled in the art is aware of different technical     possibilities for supplying this virtual M-Lo with HO-relevant     information, for example a suitable evaluation of the “signals of     the PTCP” or similar within or outside of the HOCIS-IAD. In any case     the HOCIS-IAD can thus operate a HOCIS-TCP for the telephone     directly involved in the HO—by virtue of its virtual M-Lo (as     already explained above).     -   In the FIG. 5 j the virtual M-Lo of the HOCIS-IAD transfers         HO-relevant information supplied by it to the M-Hi in the         telephone, thus its user—and thus implements the STCP (including         its OSI connection and its participation structure) between the         HOCIS-IAD and the non-HOCIS telephone. If it wants to use the         “voice channel” of the PTCP for this then it must be able to         “write” thereon—which does not necessarily require that the         voice channel is routed for this over the HOCIS-IAD because this         “mixing onto” thereon of the HO-relevant information can be         effected by means of a further STCP system according to claim 1,         for example in/on a telecommunications network.     -   FIG. 5 k differs from 5 j in that the HOCIS-/STCP-IAD now also         contains an M-Hi, i.e. an STCP-SUBC (of the STCP between this         STCP-SUBC and the PTCP-/STCP-SUBC in the telephone). This         STCP-SUBC determines how he uses his STCP OSI connection to the         M-Hi of the directly involved SUBC—i.e. that this is not         predetermined here by the virtual M-Lo, as in 5 j. In this case         the M-Hi of the IAD can act intelligently (as L7-relay between         the two STCP OSI connections, one each between this STCP-IAD and         the SUBC involved directly or indirectly in the HO) and ensure         that for example the two STCPs for the two SUBCs do not proceed         autonomously and independently of one another, but are attuned         to one another in terms of contents—so that it creates from         these two STCPs one single homogeneous STCP between the two         STCP-/PTCP-SUBCs (thus with a single STCP OSI connection and         participation structure).

It should be noted in both figures: Each M(HOCIS), for the transfer of its HO-relevant information to a telephone user, if the two are not located in the same terminal system, can use a different network from its PTCP—which naturally also applies for all previous figures.

-   D.4.7. FIG. 5 l differs from FIG. 5 k basically only in that on the     telephone side there is now also an M-Lo and thus also inter alia     the detection of HO-relevant information can be carried out both in     the HOCIS telephone and in the HOCIS-IAD. The participation     structures of the variations of the HOCIS method made possible by     this M-Lo are the same as in 5 k, which was already substantiated     further above. The corresponding analogy to this for 5 j is obvious     and is therefore omitted. -   D.4.8. In FIGS. 5 m-n the HOCIS-IAD contains no or a virtual M-Lo     for the directly involved telephone and is thus incapable or capable     respectively to accomplish the detection/supplying/transfer of     HO-relevant information by the directly involved telephone. The     HOCIS-IAD can contain virtual M-Los for both telephones which then     themselves need not both be HOCIS-enabled (i.e. need not have an     internal M-Lo). In the first case this detection must thus take     place in at least one of the telephones which requires for this an     internal M-Lo for itself if it is to be able to     detect/supply/transfer HO-relevant information about itself and/or a     virtual M-Lo for the other telephone if it is to be able to     detect/supply/transfer HO-relevant information about the tatter. In     all cases in the two M-Hi—which are shown in the figures not     separate from one another, but as a common M-Hi—of the HOCIS-IAD     however furthermore the “harmonisation” can take place of     HO-relevant information and the transfer thereof to the two     PTCP-SUBCs as regards at least one HO—for the purpose of obtaining     as already just mentioned a homogeneous STCP between them as regards     this HO—wherein all the OSI connections serving for this purpose can     be realised over different networks or a single network and     chronologically in any flexible varying way. -   D.4.9. The four FIGS. 5 o-r model the situation that the left     telephone discovers for itself a new rudimentary connectivity whilst     it (5 o) maintains a PTCP which is routed (in the part after leaving     the telephone) via a WLAN (on the basis of e.g. WiFi or Femtocell     technology) of an IAD or via another GSM/CDMA/UMTS/Wimax/ . . .     -network, or (5 p) maintains no PTCP but is checked into one of the     networks just mentioned, or (5 q&r) is checked into none of them     (see section B.)—so that in all four cases it is directly involved     in a potential HO. The same applies if this rudimentary connectivity     is discovered not by the telephone but by a network—which is why     this is not discussed again here. It should be noted that therefore     the SUBC in the directly involved STCP/PTCP terminal system has the     thick border.

These four cases 5 o-r therefore and moreover only explain

-   -   the entry of the telephone into a rudimentary connectivity—not         the exit thereof,     -   the possible HOCIS of the telephone user—not of a possible         HOCIS-IAD SUBC     -   the case where this rudimentary connectivity exists either on         both sides or not at all.

The cases complementary with this—that thus at least one of the three conditions is not met—are not explained here: The HOCIS methods according to claim 1 suitable for them are equally apparent “straightforwardly” from the discussions of this section D. if they are not already shown by its figures and their obvious combinations.

The considerable importance of individual ones of these HOCIS variations was already emphasized at the end of section B. These four associated figures and their explanations now clarify the somewhat different and/or additional technical complexity which here underlies the HOCIS method, compared to the “telecommunications configurations” previously discussed. This technical complexity thereby remains fundamentally unchanged: namely directed to the assistance of the telephone user as regards an HO situation—and not to the solution of a technical problem of this HO situation (see end of section B.).

FIG. 5 o: New rudimentary connectivity whilst the telephone is checked in elsewhere and supports a PTCP. Basically it is possible to proceed here from any of the previously discussed telecommunications arrangements and their HOCIS participation structures—to which now the discovery of the new rudimentary connectivity is added. 5 o stems especially from 5 m, shows the new HOCIS-IAD (below the 5 m telecommunications configuration) and the participation structure of the STCP OSI connection which the telephone establishes to the new HOCIS-IAD (as new STCP terminal system). It should be noted that the PTCP OSI connection—more precisely the routing of its L3-connection—remains untouched by whether it in future is routed over this new HOCIS-IAD or furthermore over the HOCIS-IAD of the telecommunications configuration from 5 m.

Any HO-relevant information transferred to the STCP-/PTCP-SUBC in the directly involved STCP/PTCP terminal system is in accordance with claim 1 if it is supplied by the real or a virtual M-Lo (i.e. by the M-Lo in this telephone itself or an M-Lo which for example is located in an IAD suitable for current or potential routing of the PTCP, as in 5 o). It should thereby be noted in particular that this HO-relevant information also

-   -   can for example be in some way or other included into one of the         STCPs or into the PTCP and thus can induce the PTCP-SUBC or M-Hi         in the PTCP/STCP terminal system shown on the right, to instruct         anyone in the PTCP/STCP terminal system shown on the left, where         necessary to carry out the HO to the new IAD, and     -   the M-Lo of the PTCP/STCP terminal system shown on the left         according to 5 n can be relocated therefrom—as described         above—so that its PTCP-SUBC can even experience this HOCIS if he         uses a non-HOCIS-FMC telephone or even a non-FMC telephone         (wherein the further respective HOCIS- and/or HO-measures which         may be required and are meanwhile obvious for the relevant         person skilled in the art on the basis of the understanding         imparted here need not be elaborated on further), and     -   the latter applies more than ever if for example the new IAD is         Femtocell-capable or is a base station of another network.

FIG. 5 p: New rudimentary connectivity whilst the telephone is checked in elsewhere and supports no actual PTCP. Seen more precisely, here the terminal system directly involved in the potential HO can perfectly support a PTCP (as in 5 o)—if it is namely capable for this, while checked into two networks at the same time, of supporting at the same time two PTCPs, e.g. one each over one network (which where necessary is already to be considered for the understanding of 5 o. In particular one of these two PTCs can be an “IPTV”-TCP or “IPRadio”-TCP or another “IPbroadcast”-TCP or similar, which uses a different network or a different networks feature than the other PTCP).

It should rather also be explained here in particular about the possible consideration of the new IAD connectivity in a HOCIS method as regards a not yet existing PTCP if the terminal system indirectly involved in the potential HO does not have this aforementioned capability.

Accordingly 5 p need only consider the IAD in which this terminal system is just checked in (and which where necessary also stands for a base station of some GSM/CDMA/UMTS/Wimax/satellite/ . . . network) as well as the new IAD.

First here the understanding is required that the telephone directly involved in an HO also already supports a PTCP according to claim 1 in this situation—when therefor there is not or not yet an “actual” PTCP between human SUBCs, as was as a rule implicitly assumed previously: That is the “admin PTCP”, which the human telephone user has produced when checking in his telephone at the IAD (shown at the top right in 5 p) between him and the automaton-SUBC of this IAD (with which since this checking in until checking out from this network he interacts explicitly and/or implicitly) and which expands the original rudimentary connectivity of the telephone (on the L1) where necessary to its internet connectivity (on the L1-L3).

Thus in this patent application an actual PTCP with a SUBC can often only start—as a rule if he is mobile—after there is for him a running admin PTCP with for example an IAD (see section B.), i.e. after successfully checking in with this IAD by means of this admin PTCP.

According to this there is already in all the previously explained FIG. 5 for the SUBC directly involved in an HO the running admin PTCP—which however need only be considered here in order to show that and how the claim 1 wording/meaning also includes this and the following telecommunications configurations as regards the directly involved SUBC. It should be noted that the claim 1 does not require that its PTCP be a person/person PTCP or similar (for more on this see the following comments on the claims group 70-79).

Even more simply/clearly apparent/given is this a priori existence of the admin PTCP according to claim 1 (where necessary already running and then possibly in addition to an actual PTCP set up with its assistance) if it already starts a further “admin-end-to-end communications application” immediately after the checking in at the IAD (shown at the top right in 5 p) and before the start of the first actual PTCP, in order to start if necessary only with the aid thereof at least one actual PTCP—for example a “netsurfing connection” (as this admin-end-to-end communications application) between the directly involved telephone and one of its “home IADs”.

Furthermore the last paragraph (with its 3 bullet points) on the explanation to 5 o also applies for this telecommunications configuration.

FIG. 5 q&r: New rudimentary IAD connectivity whilst the telephone is not checked in. Seen more precisely, here the terminal system can be checked in definitely somewhere if it has the capability to be checked into two networks at the same time (so that it can support two concurrent admin PTCPs with their two IADs, one each per network at least). This terminal system—deviating from 5 p—now does not need to be suitable to operate an actual PTCP respectively additionally at the same time over both networks, independently of one another or not.

Rather explained here is the HOCIS for a terminal system, which does not have the previously described capability, immediately after its discovery of its new rudimentary IAD connectivity (wherein the IAD in turn stands where necessary for a base station of some GSM/CDMA/UMTS/Wimax/satellite/ . . . network), i.e. with its potential and/or current checking into this IAD immediately following this discovery—whereby the terminal system expands its rudimentary connectivity to the internet connectivity of its user (and supported the same straightaway for example per netsurfing communications application), as is now explained.

In order to explain this, 5 q shows a terminal system with rudimentary connectivity only to one IAD over which (i.e.: over whose network) the former can enable internet connectivity for its SUBC—whilst 5 r shows that it can have rudimentary connectivity to several IADs, but it can enable the internet connectivity for its SUBC nevertheless only over one of these IADs (although before actually producing this internet connectivity over just one of these IADs it discovered the production-possibility/impossibility of its internet connectivity over at least one further IAD, possibly concurrently).

After the explanation on 5 p it can be easily seen that a terminal system even in this situation—when it is not yet checked into any network, but has already detected a rudimentary connectivity to a network—already supports a PTCP according to claim 1, namely the admin PTCP which was already explained in 5 p. This admin PTCP exists by definition for the SUBC of this terminal system from the moment of the discovery of this rudimentary connectivity for/in this terminal system (see section B.). As a reminder: This admin PTCP has the objective to establish by the automated SUBC of the new IAD the internet connectivity for the (as a rule human) SUBC of the PTCP terminal system involved in the rudimentary HO—and in cooperation with this subscriber —, to maintain it and to terminate it with his checking out from this IAD.

The HOCIS according to claim 1 during this establishing of the internet connectivity through the admin PTCP offers to the SUBC (in the PTCP terminal system which is involved in the rudimentary HO) in fact as a rule an important orientation and decision aid. This is immediately understood if one thinks that (see section B and for example dependent claims 70-79)

-   -   at the moment of the discovery of its new rudimentary         connectivity by the PTCP terminal system, this for its SUBC—more         precisely the M-Lo of this PTCP terminal system for its         SUBC—already         -   on the one hand has started an admin PTCP according to claim             1 (see above),         -   on the other hand this need not be the first admin PTCP             start according to claim 1, but at this moment at least one             different concurrent admin PTCP can already have been             started by this M-Lo (which can e.g. happen in the case of             overlapping WLANs) as well as     -   this SUBC of a potential internet connectivity (in some         circumstances with communications application, see above)         through a new IAD and its network as a rule         -   would only then (if at all) like to learn something about             the “admin STCP”—belonging to the rudimentary HO of an admin             PTCP—when this internet connectivity (where necessary             including communications application) can actually be             established, whilst a new rudimentary connectivity is itself             as a rule not of any interest to him, particularly if it             does not permit using the communications application             provided for it (for example not the aforementioned             netsurfing connection provided for it). (It should thereby             be noted that: The discovery of its rudimentary connectivity             through an admin PTCP terminal system is equivalent to its             discovery of the presence of a HOCIS signal through/in it,             and thus equivalent to the start of the admin STCP belonging             to the rudimentary HO of this PTCP), and in this case         -   would like to be able to make use of it either             fully-automated or by simplest activity, i.e. for example by             “zero touch” or “one touch” or similar of at least one             device in at least one of its SUBC PTCP and/or SUBC STCP             terminal systems.

The previous explanations show unmistakably that the HOCIS method provides the users for example of a telephone with actually important orientation/decision aids and simplification if he wants to use the HOs of the different variations or wants to evaluate them or avoid them or question them or . . . or has to accept them which are outlined in the FIG. 5 and explained above. In view of the ubiquitous and permanent flooding foreseeable for the economic regions of everybody and any where by telecommunications services offers on the one hand and on the other hand in view of the permanently growing unavoidable mobility of all persons in these regions and even their rapidly growing populations the telecommunications configurations 5 o-r (and the understanding thereof) are particularly important: from them it is particularly clearly apparent that and how the HOCIS method and the telecommunications terminal devices equipped with them makes it more easy for mobile telecommunications services users to utilise this flood in the simplest way possible—by namely making it possible to keep from them all telecommunications technical details and information (such as information regarding their rudimentary connectivities) and to provide them with HO-“convenience information support” which is more automated, is expected by the laymen in the art of telecommunications technology and can be configured to meet his requirements (such as HO decision options which were previously checked and considered good for the user invisibly as regards their technical and economical quality, and can be used automated or by one-touch of the telecommunications terminal device by the users thereof whereby he is spared the biggest part of the psychic and physic complexity as well as the mental far-ranging incompleteness which would be provided in the present-day user interfaces for dealing with this flood).

-   D.4.10. From the previous discussions on special examples of     participation structures of the HOCIS OSI connections it should be     clear: they only simplify the obtaining of an extensive and precise     understanding of the essence of the HOCIS method/s, I.e. that they     and their FIG. 5 can provide no fanning out of the claim 1     wording/meaning—but this is only undertaken by their many dependent     claims and dependent claims groups. However these explanations above     should also show by way of example that for each of the many HOCIS     methods according to the claim 1 there is again a number of abstract     implementation variations, wherein these cover in particular the     most varied of distributions of HOCIS functionalities to further     servers and telecommunications networks. -   D.4.11. After this discussion on such participation structures given     by way of example there now follows some general     remarks/reminders—already in part redundant—on the HOCIS method     according to claim 1 and its starting conditions.     -   The transfer of HO-relevant information alias HOCIS information         alias STCP information to a PTCP-SUBC can for its target PTCP or         STCP terminal device         -   Take place largely transparently (=invisibly), by being             transferred by the module which supplies it for transfer to             a SUBC in a SUBC or other terminal system inter alia in the             PTCP language of this SUBC and over the network used by the             PTCP so that at least one device of this target PTCP/STCP             terminal system lying below this SUBC cannot identify it as             HOCIS information but only this PTCP-SU BC, and         -   take place visibly, i.e. by an M-Lo transferring it to an             M-Lo of the target PTCP or STCP terminal device as HOCIS-PDU             (and possibly even also over another network than that used             by the PTCP), and only the latter M-Lo extracting a             subscriber-perceivable HO-relevant information therefrom and             transferring it to the PTCP-SUBC.     -   A secondary telecommunications process must at least once         transfer HO-relevant information of a non-human M(HOCIS) to a         PTCP-SUBC at some time. Whether and when information thus handed         over is HO-relevant or not does not need now be explained in         detail here—it is sufficient that this is as a rule obvious and         in any case the relevant person skilled in the art can recognise         this in disputed cases. He will then in particular take into         consideration that an HO-relevant information can appear in a         number         -   both of the most different codings and/or different displays         -   and also the most different combinations/overlappings with             others and/or the most different filters/projections to             other information of which none makes it into             non-HO-relevant information, so long as its target SUBC can             ultimately recognise it as such.     -   This transfer of HO-relevant information to the PTCP-SUBC can         -   require its transmission—preceding it—over at least one             network in its PTCP/STCP terminal system, thus “take place             indirectly” wherein the modalities of such a transmission             are irrelevant for a HOCIS method (and the transfer over a             network is irrelevant, if the HO-relevant information is             transferred by a virtual M(HOCIS), see the explanation on             FIG. 5 i). This situation happens if the PTCP-SUBC is             indirectly involved this HO.         -   “take place directly” insofar as it can have arisen in its             PTCP/STCP terminal system itself (or in at least one of its             virtual M(HOCIS), see the explanation on FIG. 5 i). This             situation happens if the PTCP-SUBC is directly involved in             this HO. The directly transferred HO-relevant information is             then the result of its (or its virtual M(HOCIS)) at least             one “HOCIS attempts” over at least one network with at least             one paired M(HOCIS) to establish a “HOCIS connection”, i.e.             a “HOCIS OSI connection” which is suitable and capable of             transferring to the SUBC at least one HO-relevant             information—as explained in section B.—(otherwise it is not             a HOCIS OSI connection).

I.e. that the M(HOCIS) of its PTCP/STCP terminal system (or its virtual M(HOCIS)) sent out at least one PDU to the latter system in order to improve its current connectivity to the latter. The result of such an active communications attempt of this M(HOCIS)—in order to ensure the receipt of HO-relevant information—can happen quite differently: E.g. it can

-   -   not receive the at least one HOCIS PDU anticipated by it in         order to be able to work further on improving this SUBC         connectivity to the latter system, or     -   carry out some protocols and improve the SUBC connectivity to         the “HOCIS connectivity” on the basis of a HOCIS OSI connection.

In all cases a transfer of an HO-relevant information—originating from this M(HOCIS)—and containing this result to the PTCP-SUBC can take place.

The text passages in brackets in the previous paragraph thus explicitly refer to the fact that a virtual M(HOCIS) of a SUBC PTCP/STCP terminal system or one of its at least one PTCP-SUBCs can have started a HOCIS attempt. It is then called “virtual HOCIS attempt”, otherwise “real HOCIS attempt” of this system/SUBC. In a virtual HOCIS attempt the virtual M(HOCIS) can be located for example in an IAD, in whose WLAN a non-HOCIS FMC telephone is currently checked in—and the “direct transfer” of the HO-relevant information to the PTCP-SUBC (telephone user) would then as a rule take place over its voice channel. (These transfer aspects are dealt with again and in more detail in the comments on claim 80.)

-   -   Particularly with regard to the meaning of the term “HOCIS         signal” it is pointed out/reminded:         -   A HOCIS signal is as HO-relevant information—just like any             HOCIS-PDU, HOCIS-SDU, HOCIS- . . . —an abstract bearer of             digitally displayed information to/by/for an HO—as already             detailed in Section B.- and can contain “value parameters”             and/or “reference parameters”. The former contain its             parameter value itself, whilst the latter refer to this             value or the place identified in it. So that such an HO             signal exists in at least one terminal system no value of             its possible at least one reference parameter need be             provided there.         -   The presence of a HOCIS signal or the supplying of a             HO-relevant information in a terminal device/system comes             about through its local generation and/or local obtaining             and/or its receipt over a network whose technical and time             modalities need not be discussed here.         -   Obtaining/receiving/transmitting a HOCIS signal or             HO-relevant information in this way can take place from or             to a process/service/application which has nothing directly             to do with the HOCIS method according to the invention and             which is therefore not considered here, However such a             process/service/application uses the method according to the             invention through this local or non-local             obtaining/transferring or sending/receiving over a network,             thus does encroach into the protection area of claim 1—and             this also applies even if it only concerns a part-HOCIS             signal or an HO-relevant part information (then however             possibly not solely responsible).     -   Furthermore it is reminded here that the terms HOCIS process         (alias HOCIS TOP) and STCP in this written specification are         synonyms—thus both need not be in particular “two-SUBC         processes”, i.e. can be “n-SUBC processes”, with n≠2.         Accordingly         -   The 1 ^(st) paragraph of the claim 1 wording can be modified             to             -   “A method for providing a “handover convenience                 information support” (HOCIS) for a subscriber (SUBC) of                 at least one STCP—implementing this—as regards at least                 one HO in at least one of the at least one causal PTCP                 of this SUBC wherein . . . ”         -   without changing the meaning of claim 1 so that the HOCIS             method may also justifiably be termed an STCP method.         -   the introductory wording of all the method dependent claims             of “a HOCIS method” can designate both a single associated             HOCIS TCP alias STCP or the collective total of all             associated HOCIS TCPs alias STCPs.     -   A reminder is also given to the reference at the end of         section B. that the method according to the invention cannot         only assist PTCP-SUBCs indirectly involved in an HO of a PTCP,         but also a PTCP-SUBC directly involved in this HO: the case “j.”         in claim 1 corresponds to an indirectly involved SUBC, the case         “jj.” in claim 1 to a directly involved SUBC. The first case is         in particular fanned out in dependent claims up to #69 and         explained especially in FIGS. 5 c-i, the second case is         particularly fanned out in dependent claims up to #70-79 and         explained especially in FIGS. 5 i-r.     -   The different “ors” in the claim 1 wording are mostly irrelevant         insofar as an HO-relevant information can in any case only be         known to an STCP—they then thus only serve as a reminder that in         a material implementation of a HOCIS method the material         implementation of a PTCP can effect the supplying and transfer         of an HO-relevant information of an STCP, particularly the         material implementation of an actual M-Lo and/or a non-actual         M-Lo or M-Hi and/or . . . . On closer inspection it can be seen         that a claim 1 wording reduced only to the abstract requires the         explanation of conceptual details, the necessity for which no         longer applies through this reference in it to aspects of the         material implementation of the HOCIS method.     -   Finally it should also be pointed out again here that the claim         1 wording/meaning says nothing about the fact that it would for         example always relate to an actual PTCP, it would thus rule out         at any time the existence and its reference to an admin PTCP.         That such a restriction would be inadmissible is dealt with in         explicit detail in dependent claims 90-100 and in FIGS. 5 o-r.

-   D.4.12. As already advertised at the end of sub-section D.4.1. the     claims wordings/meanings of this patent application—for reasons of     simplifying them—can dispense with the assistance of sub-dividing an     M(HOCIS) into M-Lo and M-Hi. The explanations above of this     sub-section D.4. namely lead to the conclusion that the essential     point of the features described by them can be captured by means of     some simple M(HOCIS)-attributes. For this purpose the following are     defined:     -   A “complete”—M(HOCIS) stands for one or more of the following         defined M(HOCIS).     -   An “intelligent” M(HOCIS) stands for its M-Hi-functionality         defined above.     -   A “non-intelligent” M(HOCIS) stands for its M-Lo functionality         defined above.

The demarcation between both functionalities is important: Any M(HOCIS) function in the execution of which no human participates or needs to participate—which in any case the relevant person skilled in the art can judge—may be regarded in this patent application as M-Lo function (even if the type of its intelligence should be assumed somehow “human” to one or the other) and then belongs to its non-intelligent M(HOCIS). “A non-human M(HOCIS)” is thus a synonym for “a non-intelligent M(HOCIS)”.

-   -   A “virtual” M(HOCIS) stands for its virtual M-Lo functionality         defined above (in the explanation on FIG. 5 i) and its         locality—is thus by definition non-intelligent.

These “intelligent/non-intelligent M(HOCIS)” terms can replace in all the preceding explanations the “M-Lo/M-Hi” terms 1-to-1.

To conclude these sub-sections D.2.-D.4. it is pointed out that the wording abbreviations practiced in the dependent claims compared to the claim 1 wording are only to simplify reading them—particularly by leaving out sometimes the obtrusive set phrase “at least”—thus have nothing to do with a generalisation of the claim 1 meaning. The same applies appropriately for the following claims groups comments which become shorter as a rule as the claims groups numbers rise: That which has been said once in comments on claim 1 remains valid also for the following comments, thus does not need to be constantly repeated, but also permits linguistic imprecision which makes it easier to read and understand them.

D.5. Further Detailed Explanations on the Claims and Claims Groups

Re claims group 2-9: Here some implicitly assumed different features of the PTCP underlying the HOCIS method according to the invention and/or the at least one terminal system thereof are disclosed in explicit detail.

Re claims group 10-19: It was already discussed in detail in sub-section D.1. “It identifies the features of the special cases class of this HOCIS method characterised by overlappings of the start and/or execution and/or termination of the 3 different processes therein and their combination possibilities by means of the special cases explicitly revealed by it of the HOCIS method according to the invention”.

The following comments on the individual claims groups would have each time to start with the same introductory set phrase independent of the claims groups—written in apostrophes and in italics just above —, with the exception of its part written in bold which is specific to the claims group. This stereotype passage independent of the claims groups is however only alluded to each time in the following by the respective introductory 4 dots “ . . . ”, followed by an analogy to the above bold text which is specific to the claims group written in bold in italics and inside apostrophes.

-   Re claims group 20-23: . . . “overlappings solely of HOs”

This claims group shows that it is practically impossible to list fully in this patent application all possible variations thereof (according to sub-section D.1.) or even only to show succinctly in an easily understandable way “variation characteristics” underlying them—simply because of their large number and complexity. In particular it should be noted that this claims group refers to the fact that the claim 1 contains no restriction to PTCPs with only one HO and/or with only one terminal system directly or indirectly involved in an HO (see section B. on this).

-   Re claims group 24-26: . . . “the connectivity of the directly     involved terminal system”.

The application scenario types of the HOCIS method addressed in this claims group are further explained in the last method claims groups.

-   Re claims group 27-33: . . . “specifics of the networks”. -   Re claims group 34-43: . . . “different abstractions levels and     networks” and “modalities of PTCP PDUs and/or STCP PDUs”. -   Re claims groups 44-56: . . . “HOCIS and/or reaction of a terminal     device and/or its use from/by at least one non-HOCIS     application/process”. -   Re claims group 57-65: . . . “Sending/receiving/exchanging     HO-relevant info”. -   Re claims group 66-69: . . . “qualitative causes of HO-relevant     info”. -   Re claims group 70-79: . . . “HOCIS with IAD connectivity and IAD     support”.

Actually these are two claims groups, as will become apparent shortly. For both it applies that there is only one—albeit very structured—restriction of the meaning of the dependent claim 70 over that of claim 1 and that this is undertaken in its wording passage

-   -   “ . . . non-intelligent M(HOCIS) wherein         -   the latter is located in at least one IAD or server and/or             in this SUBC PTCP/STCP terminal system and/or         -   the HO-relevant information to the SUBC signifies that after             the HO into a new network he actually there . . . ”,             namely

-   +) the non-intelligent M(HOCIS) must now be located in an IAD or     server and/or in the PTCP/STCP terminal system in which the     HO-relevant information is transferred to the PTCP-SUBC—thus in no     other STCP terminal system—which the clarification of the     understanding of the claim 1 wording/meaning explained below demands     and/or

-   ++) the HO-relevant information of the SUBC (i.e. the message to him     in the HOCIS) is now liable to clear further restrictions, inter     alia     -   prior to its ultimate transfer to the SUBC at least one (where         necessary complex) examination must be carried out—by and/or         with whomever in or for the STCP—as regards the at least one         option which is to be displayed to him in some way (wherein this         display can comprise where necessary at least one further         SUBC-interaction, possibly of a promotional nature, and/or can         be options-specific and/or specific in some other way)     -   option-dependent after its selection (by whomever) where         applicable at least one (where necessary complex) measure must         be carried out for its execution—by and/or with whomever in or         for the STCP—whereas the above mentioned further SUBC         interaction can also take place here.

The above restriction +) makes it necessary—indeed only by means of the dependent claims 71-79 to which however reference is previously made here—for this aforementioned clarifying of understanding insofar as it makes it necessary to recognise the inadmissibility of some restricting assumptions about the claim 1 wording/meaning, even if these faulty assumptions appear “naturally” on first notice. By way of example it is easier to be seen on the basis of this restriction.

-   -   In many of the associated scenarios, as shown by way of example         in FIGS. 5 j-r, the claim 1 can be implemented in at least two         different ways, possibly by underlying an “actual PTCP” on the         one hand and on the other an “admin PTCP” (for these terms see         the above explanations on FIG. 5 p). The PTCP according to claim         1 can be implemented both by means of an actual PTCP and also by         means of an admin PTCP.     -   The claim 1 also says nothing about whether its SUBC PTCP and/or         STCP terminal systems and their SUBCs are participating in the         (abstract and/or material) realization of several actual PTCPs         and/or several admin PTCPs, thus undertakes no restriction of         the configuration possibilities of the method according to claim         1 resulting therefrom. By way of example therefore in a HOCIS         method at least one HO-relevant information of a first STCP of a         first of its PTCPs can be transferred to a certain SUBC, this         information can be transferred in a second STCP process of a         second PTCP of this HOCIS method to this SUBC wherein both STCPs         and/or their terminal systems and/or their networks/access         points/performance features are different. This has practical         significance by way of example if for example the material         implementation of the first STCP terminal system for this SUBC         as a whole or in part is different from that of the second STCP         terminal system—which in turn work for example with network         features which are different from one another.

Incidentally the restrictions of claim 70 change nothing to the fact that it furthermore relates in an HO to as a rule all its PTCP-SUBCs, both the SUBCs involved directly and those also involved indirectly in same. This also applies in the two following claims groups—even though in particular the directly involved SUBCs and their PTCP/STCP terminal systems are considered in the associated FIGS. 5 i-r.

-   Re claims group 70-75: . . . “Directly involved M(HOCIS) in the     event of connectivity”.

It fans out claim 70 corresponding to FIGS. 5 j-n.

-   Re claims group 76-79: . . . “directly involved M(HOCIS) with     rudimentary connectivity”.

It fans out claim 70 corresponding to FIGS. 5 o-r.

Re claims group 80-82: Claim 80 discloses a (generic) abstract HOCIS apparatus for implementing an abstract HOCIS method, which in some circumstances is more general than the HOCIS method according to claim 1 (see below). Dependent claim 81 restricts the functionality of this HOCIS apparatus according to claim 80 to that which is required for the abstract implementation especially of a HOCIS method according to claim 1 or according to at least one of the dependent claims 2-79.

The model of the abstract construction of an abstract HOCIS apparatus and its HOCIS-apparatus terminal systems with PTCP-SUBCs is already described in sub-section C.6. On the basis of the abstract resource sharing—functionally naturally always conceivable and therefore possible—explained there it is in the abstract irrelevant whether STCP apparatus components use or not use PTCP apparatus components which are essentially provided anyhow.

It should be noted: This abstract construction of an abstract HOCIS apparatus and its terminal systems at PTCP-SUBCs also permits material implementations alias embodiments of an abstract HOCIS apparatus terminal system at a PTCP-SUBC wholly or partially in a there independent material HOCIS terminal device (i.e. need not be located in at least one physical PTCP terminal system provided there anyhow). Such a separateness of material PTCP and/or HOCIS terminal devices can—but need not—be traced back to the fact that they would be incapable for material technical reasons of resource sharing (This is e.g. the case as a rule with a present day “only WLAN telephone” and an “only GSM telephone” isolated therefrom, between which a PTCP changes in an HO). Other reasons for this separateness can be incompatibilities of all kinds between PTCP and/or STCP modules, but in the future possibly also be the wish of a SUBC to receive all HOCIS and all HO-relevant information about all of his PTCPs in an appropriately integrated way at at least one HOCIS device which is particularly suited for this, which for convenience reasons therefore should be separated from the at least one as a rule differently designed PTCP terminal device (which in turn can maintain several simultaneous different type PTCPs via possibly different type networks/access points/services features).

It should next be confirmed that the two functions of a HOCIS apparatus “indirect or direct transfer (of an HO-relevant information through any means to a SUBC)” and “direct use (of the means transferring an HO-relevant information by a SUBC)” each cause that which they intuitively suggest:

-   -   The “direct transfer” of an HO-relevant information through an         M(HOCIS) means or supplying means to a SUBC has the effect that         it carries out this transfer directly to the SUBC—which is only         possible if this SUBC and this means belong to the same OSI         terminal system or this means is its virtual M(HOCIS) (see the         above explanation on FIG. 5 i).

Otherwise—namely the SUBC and means do not belong to the same OSI terminal system and the means is not a virtual M(HOCIS) of the SUBC OSI terminal system—its transfer by the means to the SUBC requires to switch a paired means between the two in the SUBC OSI terminal system and is therefore an “indirect transfer”.

-   -   The “direct use” of the means (transferring an HO-relevant         information) by a SUBC has the effect that the SUBC is directly         participating in the execution of the direct-transfer         function—which is obviously possibly again only under the         conditions previously discussed.

Finally the principle of the apparatus main claims will be explained—and its fundamental difference from the principle of the method main claim. Accordingly a HOCIS apparatus according to claim (80-82) contains a set of means according to claim (80-82). These means are connected at least means-internally and to one another by means of at least one network which however was not included as an obvious feature into the aforementioned apparatus main claim wordings, like the computer systems realising these means. The means of this set are suitable for providing in their interaction—suitably controlled—with one another and with the PTCP-SUBCs for the latter a desired HOCIS as regards an HO in these PTCPs, An apparatus which contains such a set of means is called a HOCIS apparatus. It should be noted that of a HOCIS apparatus alone, thus without such a control, it is not known that it would work appropriately.

Rather a HOCIS provision for the SUBCs using a HOCIS apparatus only happens by means of a suitable control of the interaction of its means and SUBCs. A process of HOCIS provision thus controlled is called in this written specification HOCIS TCP alias STCP. A method according to which this control of the means use in this interaction takes place is called HOCIS method. It should be noted that such a control method need not refer explicitly to the means itself, but can control the use of the respective functionalities (and thereby thus implicitly relate to the means)—as happens in this written specification.

For each control method of a HOCIS apparatus—for realizing a desired HOCIS-provision/STCP as regards at least one HO—the apparatus main claims which this HOCIS apparatus implements, impose clear restrictions as regards the exchange (of the apparatus means with one another and with the PTCP-SUBCs using the HOCIS apparatus) of HO-relevant information in an STCP being based on its control. These restrictions extend so far that most of all (despite this still possible and of practical interest) control methods implement the main claim 1, thus are HOCIS methods according to the invention. And conversely it can be easily seen that every HOCIS method according to the main claim 1 is actually suitable for controlling any HOCIS apparatus according to an apparatus main claim so that it provides a desired HOCIS for PTCP-SUBCs using it.

The three paragraphs above have explained the aforementioned fundamental difference between a HOCIS apparatus according to the invention and a HOCIS method according to the invention.

-   Re claims group 83-91: . . . “HOCIS-means conditioned variations”.

These dependent claims explain explicitly some features and features combinations which are typical of the apparatus. 

1. A method for providing a “handover convenience information support” (HOCIS) for a subscriber (SUBC) of at least one primary telecommunications process (PTCP) with regard to at least one HO in at least one of its at least one PTCP, for the implementation of which the SUBC participates additionally in at least one secondary telecommunications process (STCP), wherein i. to this SUBC at least one HO-relevant information is transferred by at least one of his SUBC STCP terminal systems or PTCP terminal systems, ii. which for this purpose was supplied by at least one non-human module M(HOCIS) in at least one HOCIS-PDU in at least one STCP system to which this SUBC j. either does not belong jj. or does belong and it k. originates from a respective paired STCP or PTCP system or/and kk. is the result of at least one of its real or virtual HOCIS attempts, iii. this transfer starts with the discovery of the presence of at least one signal therefor in at least one PTCP and/or STCP system of the SUBC, consisting of at least the steps: a) checking at least once for the presence of at least one signal according to iii. and b) transfer according to i. of at least one HO-relevant information supplied according to ii.
 2. A HOCIS-method according to claim 1 in which the SUBC is located in a PTCP terminal system which is involved directly or indirectly in an HO of this PTCP.
 3. A HOCIS method according to claim 1 in which the at least one STCP system according to claim 1 ii. is or is not an STCP terminal system of the SUBC.
 4. A HOCIS method according to claim 1 wherein at least one M(HOCIS) according to claim 1 ii. requires either not one or at least a different HW component than is contained in the PTCP terminal systems/devices (e.g. a telephone or its sound generator or an IAD or a WLAN-independent server).
 5. A HOCIS method according to claim 1 wherein at least one PTCP or STCP uses not one or at least one SUBC terminal device and/or IAD and/or server.
 6. A HOCIS method according to claim 1 wherein at least one server or IAD is or is not part of at least one SUBC terminal system and/or a SUBC terminal system contains or does not contain any further non-human functional groups.
 7. A HOCIS method according to claim 1 wherein at least one PTCP or STCP is each implemented by means of at least one HOCIS-ISR server (ISR=interactive signal response) or another type of server and/or at least one subscriber terminal system.
 8. A HOCIS method according to claim 1 in which a SUBC terminal system contains an internet terminal system and/or a mobile network terminal system (with integrated NT where necessary) and/or a LAN and/or WLAN terminal system and/or is stationary or mobile and/or contains no or at least one TA and/or NT and/or a common or independent user interface for same which can where applicable be used separately or conjointly.
 9. A HOCIS method according to claim 1 in which the system according to claim 1 a)—thus in which the presence of at least one HOCIS signal is established—is either a PTCP or STCP system.
 10. A HOCIS method according to claim 1 which starts before or in a potential PTCP.
 11. A HOCIS method according to claim 1 which starts in a current but not yet running PTCP.
 12. A HOCIS method according to claim 1 which starts in or after a running PTCP.
 13. A HOCIS method according to claim 1 which starts in a potential or in a current but still not yet running HO process of a (potential or current) PTCP.
 14. A HOCIS method according to claim 1 which starts in a running but not yet completed HO process.
 15. A HOCIS method according to claim 1 which starts after a completed HO process and considers it thereby retrospectively as associated with itself.
 16. A HOCIS method according to claim 1 for a potential HO wherein the former terminates before this HO is current but still not yet running or is running or completed—wherein one such early STCP termination in the event of a later renewed start of the STCP for this or a different HO can have an effect or not and/or this termination is or is not indicated to not one or to at least one SUBC.
 17. A HOCIS method according to claim 1 for a current but not yet running HO which terminates before or as soon as this HO is running.
 18. A HOCIS method according to claim 1 for a running HO which terminates before this HO is completed.
 19. A HOCIS method according to claim 1 which terminates after a completed HO.
 20. A HOCIS method according to claim 1 which in at least one or all PTCPs at one moment in time or constantly supports only one or several HO processes of which each can be potential or current or retrospective.
 21. A HOCIS method according to claim 1 which in a PTCP at one moment in time supports several HO processes superimposed on one another chronologically, like a time sequence of chronologically superimposed individual HO processes whose directly involved terminal systems each time are involved directly only in one HO process—wherein in the case of several concurrent PTCPs these sequences are also concurrent.
 22. A HOCIS method according to claim 1 which in several or all PTCPs at one moment in time supports several chronologically overlapping HO processes like a chronological sequence of chronologically superimposed individual HO processes whose directly involved terminal systems are each only directly involved in one HO process—wherein there are thus no concurrent sequences.
 23. A HOCIS method according to claim 1 in which the HO process is a networks-HO process or access points-HO process or performance features HO process or is an HO process which includes at least one of these three special HO types and is therefore more general, which can overlap in any way or not.
 24. A HOCIS method according to claim 1 in which the directly involved terminal system of the (potential or current) HO process associated with it during this HO process constantly at the same time is a terminal system either capable of working on two communications networks or at two access points of a network or with two different performance features.
 25. A HOCIS method according to claim 1 in which the directly involved terminal system of the HO process associated with it during this HO process at least occasionally simultaneously is a terminal system capable of working either at two networks or at two access points of a network or with two different performance features.
 26. A HOCIS method according to claim 1 in which the directly involved terminal system during this HO process is never at the same time a terminal system capable of working either at two networks or at two access points of a network or with two different performance features.
 27. A HOCIS method according to claim 1 in which the networks of the PTCP and/or STCP systems can have in particular any range of coverage, thus individually by way of example can be a wide area network as well as a MAN (Metropolitan Area Network) as well as a LAN (Local Area Network) as well as an arbitrarily small network (Femtocell) and also any combination or hybrid of these.
 28. A HOCIS method according to claim 1 in which the switching technology in the individual networks of the PTCP and/or STCP systems is uniform or different.
 29. A HOCIS method according to claim 1 in which the transmission technologies in the individual networks of the PTCP and/or STCP systems are based on one or more cable/wire-linked or cable/wire-less data transmission sections or on both of them.
 30. A HOCIS method according to claim 1 which of all the networks involved in its implementation only uses services which are supplied by them for conducting telephone conversations.
 31. A HOCIS method according to claim 1 which of at least one of the networks involved in its implementation by at least one of the terminal systems involved in its implementation—including and/or excluding at least one server—makes use of at least one service which is supplied for at least one different purpose than the implementation of telephone conversations.
 32. A HOCIS method according to claim 1 in which the network for transmission and/or the network for reception of a PDU is none of the two networks and/or network access points and/or performance features between which the HO of the PTCP on which it is based takes place.
 33. A HOCIS method according to claim 1 in which the transmission and/or the reception of a PDU takes place by means of at least one of the two networks, access points or performance features, between which the HO of the PTCP on which it is based takes place.
 34. A HOCIS method according to claim 1 in which for at least one OSI connection for at least one or all PTCPs and/or STCPs one or several Li connections is/are provided and/or used permanently or at times either on none or at least one or all of its 7 layers, which (connections) is/are implemented permanently or temporarily by means of one and/or several networks.
 35. A HOCIS method according to claim 1 in which at least one or all of the PTCP PDUs or STCP PDUs are the same or different wherein at least one or all the PTCP PDUs or STCP PDUs contain at least one feature of at least one HO-relevant information.
 36. A HOCIS method according to claim 1 in which at least one or all of the PTCP PDUs or STCP PDUs are independent of their origin terminal devices/systems and/or their generating/transmitting/receiving/exchanging functional modules and/or transmission networks and/or destination terminal devices/systems and/or their addressed functional modules and/or their users and/or in which there is for at least one PTCP PDU or STCP PDU at least one format which is dependent on its origin terminal device/system and/or one of its transmitting functional modules and/or at least one transmission and/or reception network and/or at least one destination terminal device/system and/or the functional module addressed therein and/or its user.
 37. A HOCIS method according to claim 1 in which there is always or sometimes or never exactly one or at least one PTCP PDU or STCP PDU respectively and this applies for at least one or all origin terminal systems/devices of at least one PTCP and/or STCP and/or for at least one or all of its destination terminal systems/devices and/or for at least one or all networks.
 38. A HOCIS method according to claim 1 in which the header and/or user data (of the OSI RM) of at least one or all PTCP PDUs or STCP PDUs are coded corresponding to a uniform or different, thereby standardised or proprietary coding method.
 39. A HOCIS method according to claim 1 in which at least one or all PTCP PDUs or STCP PDUs and/or their user data (in the sense of the OSI RM) are packeted or non-packeted.
 40. A HOCIS method according to claim 1 in which all the PTCP PDUs or STCP PDUs are coded as independent exchange/transfer PDUs or at least one PTCP PDU or STCP PDU is coded embedded totally or partially in at least one PDU of at least one different process/application.
 41. A HOCIS method according to claim 1 in which the user data of at least one PTCP PDU or STCP PDU contains at least one information which does not originate from this HOCIS process and/or is not related to it.
 42. A HOCIS method according to claim 1 in which the user data of at least one PTCP PDU or STCP PDU consist of voice and/or other sound and/or any data of different types and/or contain these, namely in their standardised (e.g. a-law/mu-law or G.7xx or DTMF or ASCII) and/or proprietary (e.g. EBDIC or Adobe) representation.
 43. A HOCIS method according to claim 1 in which the discovery of the presence of a PTCP PDU or STCP PDU as a signal according to claim 1 a) is to be ascribed to its (local) supplying and/or its type in at least one system and/or its (local) transfer and/or its type therein and/or its transfer and/or its type therein of a network—each time totally or partially of this PTCP PDU or STCP PDU—and this supplying/transfer took place before or during or after a network transfer and/or a (local) supplying of this system of the first or the last or another certain PTCP PDU or STCP PDU—from/to/with what/whom ever—has been carried out.
 44. A HOCIS method according to claim 1 in which the checking in a system according to claim 1 a) is carried out at least before or at or after the start of at least one PTCP and/or STCP and/or HO process and/or other process and/or with the appearance of a network and/or terminal system/device and/or user and/or other type of event and/or takes place at regular time intervals and/or constantly and/or at certain PTCP/HO process/STCP dependent time intervals.
 45. A HOCIS method according to claim 1 in which the checking according to claim 1 a) consists in bringing about a decision regarding this presence of which at least one effect consists in carrying out completely or interrupting or modifying or not starting the execution of the compulsory follow-up action according to claim 1b).
 46. A HOCIS method according to claim 1 in which as a consequence of fulfilling claim 1 a) only at least one local HOCIS measure and/or only at least one local HOCIS PDU exchange measure—with whomever—in at least one STCP and/or PTCP system or a further functional reaction takes place.
 47. A HOCIS method according to claim 1 in which the execution of at least one or all of its local and/or non-local measures of at least one terminal system/device which are its compulsory functional reactions as a result of fulfilling claim 1 a) takes place immediately or takes place totally or partially only after the terminal system/device has executed at least one further local or non-local measure totally or partially—wherein the latter is not or is a direct or indirect result of fulfilling claim 1 a) and/or where necessary fulfilling claim 1 b).
 48. A HOCIS method according to claim 46 in which the at least one functional reaction of the terminal system/device in all or in some of its states is temporarily or permanently the same or different.
 49. A HOCIS method according to claim 46 in which the at least one functional reaction of the terminal system/device in at least one state is dependent on at least one feature either of at least one PTCP and/or HO process and/or STCP and/or non-HOCIS process and/or at least one other application.
 50. A HOCIS method according to claim 46 in which the at least one functional reaction of the terminal system/device in at least one state is dependent on at least one feature of at least one HOCIS—preceding and/or succeeding the fulfilling of claim 1 a)—and/or its execution for the SUBC addressed by this HOCIS and/or this SUBC and/or the SUBC who has induced this HOCIS.
 51. A HOCIS method according to claim 46 in which the at least one functional reaction of the terminal system/device in at least one state is dependent on at least one feature of at least one HOCIS-PDU-generation—preceding and/or succeeding the fulfilling of claim 1 a)—and/or its network transmission and/or its local transmission (its respective transmission and/or reception) and/or its transfer-supplying therefor.
 52. A HOCIS method according to claim 1 in which the selection/non-selection of at least one HOCIS function and/or the display of at least one or each HOCIS takes place on the one hand according to “local” and/or “central” and on the other hand according to the “static” and/or “dynamic” requirement of at least one user of the terminal terminal device supported by this HOCIS function or generating/understanding this display—within the scope of its technical possibilities, particularly regarding the individualising of the selection/non-selection of this HOCIS function or HOCIS display(s) according to this at least one user and/or his terminal system and/or the content of at least one HOCIS—and/or at least one of its administrators, i.e. is determined by this user/administrator by means of the specification possibility of this terminal device for this (=local), or a server-controlled HOCIS display-selection method (=central), and/or according to “local/central-mixed form” measure namely—as regards the configuration of his terminal device through this selection/non-selection of a HOCIS function or HOCIS display— without the any time (=static) or with the any time (=dynamic) cooperation possibility of this user.
 53. A HOCIS method according to claim 1 in which at least one HOCIS relates totally or partially to a current and/or retrospective reporting and its modalities to the user of the terminal device about at least one HO process—where necessary by including at least one non-HOCIS process/application—before its beginning and/or in at least one of its user-defined certain time intervals or at any time, for each application/process individually or conjointly for several or all applications/processes wherein a HOCIS of this kind requires confirmation by this user—by means of at least one other HOCIS—and/or by at least one terminal device and/or at least one server and/or a communications process wherein the display of such a confirmation corresponds or does not correspond to the display of this HOCIS.
 54. A HOCIS method according to claim 1 in which at least one HOCIS initiates or modifies or terminates totally or partially at least one HO process.
 55. A HOCIS method according to claim 1 which of at least one non-HOCIS process/application through at least one STCP system uses not one and/or at least one service which this application/non-HOCIS process supplies.
 56. A HOCIS method according to claim 1 with the execution of which at least one HOCIS PDU of at least one non-HOCIS process and/or non-HOCIS application is used.
 57. A HOCIS method according to claim 1 in which—only or not only—at least one server of at least one HOCIS process transmits (sends and/or receives) and/or (locally) supplies at least one or at least one specific or all HOCIS PDUs over at least one network.
 58. A HOCIS method according to claim 1 in which no server transmits (sends and/or receives) and/or (locally) supplies at least one or at least one specific or all HOCIS PDUs to/from at least one or at least one specific or all—specific or not—terminal and/or non-terminal terminal devices.
 59. A HOCIS method according to claim 1 in which only at least one subscriber terminal system of the PTCP and/or STCP sends and/or receives and/or locally exchanges at least one or at least one specific or all HOCIS PDUs to/from at least one further or at least one specific further or all further PTCP and/or STCP terminal systems over at least one network—each individually or conjointly for the latter terminal systems—and/or attempts such sending/receiving/exchanging.
 60. A HOCIS method according to claim 1 in which the transfer/supplying of at least one HOCIS PDU takes place from at least one terminal system/device of the HOCIS process and/or to/with at least one terminal system/device of the HOCIS process and/or non-HOCIS terminal system/device and/or non-HOCIS method/application/service.
 61. A HOCIS method according to claim 1 in which the transfer through at least one or all terminal systems/devices of at least one or all HOCIS PDUs to/from at least one terminal system/device implies that the (several) transferred HOCIS PDU(s) from the terminal systems/devices which are each (sender-)identified/addressed by them is/are/was/were never and/or sometimes and/or always transferred changed and/or unchanged—wherein this also applies for the splitting up of individual or the combination of several transferred HOCIS PDUs (in or from several or individual subsequently/previously transferred HOCIS PDUs).
 62. A HOCIS method according to claim 1 in which the transfer of at least one or all HOCIS PDUs over at least one network causes or attempts to cause at least one change-over to at least one further network and/or at least one suitable split-up and/or at least one suitable combining of HOCIS PDUs, e.g. in order to improve at least one quality of the transfer or if this is improved thereby.
 63. A HOCIS method according to claim 1 in which at least one or all subscriber terminal systems of a communications process is/are temporarily or permanently not suitable, to supply locally at least one HOCIS PDU and/or to transfer over at least one network—at least one network each individually per terminal system or for it.
 64. A HOCIS method according to claim 1 in which the transfer (sending and/or receiving) of at least one or all HOCIS PDUs takes place over at least one network different from that at least one network used currently in the primary communications process or by it after its HO.
 65. A HOCIS method according to claim 1 in which the transfer (sending and/or receiving) over at least one network and/or the supplying of at least one or all HOCIS PDUs requires the preceding and/or succeeding acceptance or confirmation of the address terminal system/s or at least one of its/their devices and/or users and/or at least one further terminal system/device always or at times or with the presence of states of the addressed terminal system/s produced by its/their users.
 66. A HOCIS method according to claim 1 in which the checking according to claim 1 a) for the existence (and where necessary its discovery) of a HOCIS PDU was caused implicitly and/or explicitly by at least one subscriber and/or is due to the appearance—in at least one communications process—of at least one qualitative deficiency in the signal or bit or data or information transmission by at least one data transmission section of at least one of the networks and/or the supplying in at least one of the terminal devices/systems of at least one HOCIS PDU and/or the generation or display or recognisability of a HOCIS.
 67. A HOCIS method according to claim 66 in which this at least one qualitative deficiency is of a technical and/or physical and/or of physic type and/or spatial and/or financial and/or possibly social and/or possibly of emotional nature of the terminal system of a and/or in the perception of at least one subscriber.
 68. A HOCIS method according to claim 66 in which this at least one qualitative deficiency is only assumed or only becomes apparent but is still not yet present or is already present or is no longer present but has been present.
 69. A HOCIS method according to claim 66 in which this at least one qualitative deficiency—in at least one OSI connection of at least one TCP—is located in precisely or at least one of its Li connections and/or in at least one of its 7 layers individually and/or in a combination of more than one layer.
 70. A HOCIS method according to claim 1 in which the HO-relevant information which is meant to be transferred to the PTCP-SUBC of at least one PTCP/STCP terminal system involved in an HO, was supplied by at least one non-intelligent M(HOCIS) wherein (1) the latter is located in at least one IAD or server and/or in this SUBC PTCP/STCP terminal system, and/or (2) the HO-relevant information to the subscriber signifies that after the HO into a new network he actually there can check in there and/or can or cannot obtain a specific internet connectivity and/or a specific application connectivity and/or can implement at least one of these options by “zero touch” and/or “one touch” of the SUBC—or a similarly simple SUBC measure and/or at least one of these options—selected by the SUBC or in some other way—is then already implemented and/or the design of at least one of these options and/or the selection of the latter—for whichever PTCP-SUBC—requires a further SUBC interaction, for example of a promotional nature, and/or for at least one PTCP-SUBC—regardless of which—the design of one of these options and/or the selection of the latter and/or the further at least one SUBC interaction of the latter is determined by at least one STCP or someone else.
 71. A HOCIS method according to claim 70 in which the non-intelligent M(HOCIS) is a virtual M(HOCIS) of the PTCP/STCP terminal system in an IAD or server.
 72. A HOCIS method according to claim 71 in which the complete M(HOCIS) located in the IAD or server contains additionally an intelligent M(HOCIS).
 73. A HOCIS method according to claim 72 in which the SUBC PTCP/STCP terminal system contains additionally a non-intelligent M(HOCIS).
 74. A HOCIS method according to claim 70 in which there is for the SUBC PTCP terminal system a paired PTCP terminal system outside of the IAD or server, i.e. there is an actual PTCP.
 75. A HOCIS method according to claim 74 in which the IAD or server contains the virtual M(HOCIS) of the SUBC PTCP/STCP terminal system.
 76. A HOCIS method according to claim 74 in which the SUBC PTCP/STCP terminal system directly involved in the (potential or current) HO discovers at least a rudimentary connectivity to a possibly second M(HOCIS) in possibly a second IAD or server and/or one of the options (2) of claim 70 for its network.
 77. A HOCIS method according to claim 70 in which the PTCP underlying the (potential or current) HO is the existing admin PTCP of the SUBC PTCP/STCP terminal system, thus there is or is not an actual PTCP.
 78. A HOCIS method according to claim 77 in which the PTCP underlying the current HO is the started admin PTCP of the SUBC PTCP/STCP terminal system and there is or is not an actual PTCP.
 79. A HOCIS method according to claim 78 in which the PTCP is still potential and there is or is not an actual PTCP.
 80. A “HOCIS” apparatus, also called “STCP apparatus”, for providing a “handover convenience information support” (HOCIS) for a subscriber (SUBC) of at least one primary telecommunications process (PTCP) regarding at least one HO in at least one of its at least one PTCPs, for the implementation of which this SUBC additionally participates in at least one secondary telecommunications process (STCP), with STCP means (=“OSI apparatus systems”) for implementing at least one STCP—wherein this implementation comprises in particular neither the at least one telecommunications network used by this STCP nor the at least one SUBC who uses this STCP—wherein this SUBC j. can either use the STCP means which transfers to him at least one HO-relevant information not directly jj. or can use it directly and the HO-relevant information k. originates from at least one M(HOCIS) means which cannot transfer it to the SUBC directly and/or kk. is transferred to the SUBC directly and is the result of at least one of its real or virtual HOCIS attempts, utilisation means, as part of the STCP means, for the direct use by a SUBC of an STCP means for the purpose of its transfer of at least one HO-relevant information, and transfer means, as part of the STCP means, for the direct or indirect transfer to this SUBC of at least one HO-relevant information supplied for transfer, and supplying means, as part of the STCP means, for supplying for this direct and/or indirect transfer at least one detected HO-relevant information, and M(HOCIS) means for detecting at least one HO-relevant information, and discovery means, as part of the STCP means, for discovering the presence of at least one signal for starting a transfer of HO-relevant information.
 81. (canceled)
 82. (canceled)
 83. A HOCIS apparatus according to claim 80 in which at least one HW and/or SW component of at least one or all means on the one hand partially or totally and/or on the other hand temporarily or permanently serve solely for the abstract and/or material implementation of at least one STCP (i.e.: no “resource sharing” with a PTCP takes place there).
 84. A HOCIS apparatus according to claim 80 in which at least one or all HW components and/or one or all SW components of at least one means on the one hand partially or totally and/or on the other hand temporarily or permanently by means of at least one HW component and/or SW component of at least one PTCP terminal system is/are implemented abstractly and/or materially.
 85. A HOCIS apparatus according to claim 80 in which at least one or all means partially or totally are implemented as ASICs (=“application specific integrated chips”) and/or FPLAs (=freely programmable logic arrays”) and their “firmware” abstractly and/or materially, or as other further substitutes of SW components.
 86. A HOCIS apparatus according to claim 80 in which at least one or all SW components of at least one or all means, in their abstract and/or material implementation, not at all and/or partially and/or totally only for their execution are loaded in the memory to which the processor can access directly.
 87. A HOCIS apparatus according to claim 80 in which at least one or all SW components of at least one or all means, in their abstract and/or material implementation, not at all and/or partially and/or totally only for their execution are translated into a code which can be executed by at least one of their processors.
 88. A HOCIS apparatus according to claim 80 in which at least one or all SW components of at least one or all means, in abstract and/or material implementation, on the one hand partially or totally and/or on the other hand temporarily or permanently are checked for their sound condition and/or authenticity and/or proposed functionality.
 89. A HOCIS apparatus according to claim 80 in which at least one or all SW components of at least one or all means, in abstract and/or material implementation, on the one hand partially or totally and/or on the other hand temporarily or permanently during their execution is/are located at least one different place from where originally provided by the functionality of this means.
 90. A HOCIS apparatus according to claim 80 in which at least one version of at least one or all SW components of at least one or all means in abstract and/or actual implementation, on the one hand partially or totally and/or on the other hand temporarily or permanently can be replaced by a different version.
 91. A HOCIS apparatus according to claim 90 in which in this replacement only at least one faulty SW component, in abstract and/or material implementation, is exchanged and/or at least one of its “resource sharing capabilities” is modified. 